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Inverter PairFloor Standing Type B-Series
[Applied Models]Inverter Pair : Cooling Only Inverter Pair : Heat PumpNon-Inverter Pair : Cooling Only
Si06-313
ServiceManual
Si06-313
Inverter PairInverter PairInverter PairInverter PairB-SeriesB-SeriesB-SeriesB-Series
Cooling OnlyIndoor Unit
FVKS50BVMB
Outdoor UnitRKS50BVMB RS50BVMB
Heat PumpIndoor Unit
FVXS50BVMB
Outdoor UnitRXS50BVMB RXS50BVMA
Table of Contents i
Si06-313
1. Introduction .............................................................................................v1.1 Safety Cautions ........................................................................................v
Part 1 List of Functions ................................................................11. List of Functions ......................................................................................2
1.1 Cooling Only.............................................................................................21.2 Heat Pump ...............................................................................................3
Part 2 Specifications ....................................................................51. Specifications ..........................................................................................6
1.1 Cooling Only.............................................................................................61.2 Heat Pump ...............................................................................................7
Part 3 Printed Circuit Board Connector Wiring Diagram .............91. Printed Circuit Board Connector Wiring Diagram..................................10
1.1 Indoor Unit..............................................................................................101.2 Outdoor Unit ...........................................................................................12
Part 4 Function and Control........................................................151. Main Functions......................................................................................16
1.1 Frequency Principle................................................................................161.2 Wide Angle Louvers and Auto-Swing.....................................................181.3 Fan Speed Control for Indoor Units........................................................191.4 Programme Dry Function .......................................................................201.5 Automatic Operation...............................................................................211.6 Night Set Mode.......................................................................................221.7 Home Leave Operation ..........................................................................231.8 Inverter Powerful Operation ...................................................................241.9 Other Functions......................................................................................25
2. Function of Main Structural Parts..........................................................262.1 Function of Thermistor ...........................................................................26
3. Control Specification .............................................................................283.1 Mode Hierarchy ......................................................................................283.2 Frequency Control..................................................................................293.3 Controls at Mode Changing / Start-up....................................................313.4 Discharge Pipe Temperature Control.....................................................323.5 Input Current Control..............................................................................323.6 Freeze-up Protection Control .................................................................333.7 Heating Peak-cut Control .......................................................................333.8 Fan Control.............................................................................................343.9 Moisture Protection Function 2...............................................................343.10 Low Hz High Pressure Limit ...................................................................353.11 Defrost Control .......................................................................................353.12 Electronic Expansion Valve Control .......................................................363.13 Malfunctions ...........................................................................................393.14 Forced Operation Mode .........................................................................403.15 Additional Function.................................................................................40
ii Table of Contents
Si06-313
Part 5 System Configuration.......................................................411. System Configuration............................................................................422. Instruction..............................................................................................43
2.1 Safety Precautions .................................................................................432.2 Names of Parts.......................................................................................452.3 Preparation before Operation.................................................................482.4 AUTO·DRY·COOL·HEAT·FAN Operation ..............................................512.5 Adjusting the Air Flow Direction .............................................................532.6 POWERFUL Operation ..........................................................................552.7 OUTDOOR UNIT SILENT Operation .....................................................562.8 HOME LEAVE Operation .......................................................................572.9 TIMER Operation ...................................................................................592.10 Care and Cleaning .................................................................................612.11 Troubleshooting......................................................................................64
Part 6 Service Diagnosis.............................................................671. Caution for Diagnosis............................................................................682. Problem Symptoms and Measures .......................................................693. Service Check Function ........................................................................704. Troubleshooting ....................................................................................71
4.1 Error Codes and Description ..................................................................714.2 Indoor Unit PCB Abnormality .................................................................724.3 Freeze-up Protection Control or High Pressure Control.........................734.4 Fan Motor (DC Motor) or Related Abnormality.......................................754.5 Thermistor or Related Abnormality (Indoor Unit)....................................774.6 Shutter Drive Motor / Shutter Limit Switch Abnormality .........................784.7 Signal Transmission Error (between Indoor and Outdoor Units)............794.8 OL Activation (Compressor Overload) ...................................................804.9 Compressor Lock ...................................................................................814.10 DC Fan Lock ..........................................................................................824.11 Input Over Current Detection .................................................................834.12 Four Way Valve Abnormality..................................................................854.13 Discharge Pipe Temperature Control.....................................................874.14 Position Sensor Abnormality ..................................................................884.15 CT or Related Abnormality .....................................................................894.16 Thermistor or Related Abnormality (Outdoor Unit).................................914.17 Electrical Box Temperature Rise............................................................934.18 Radiation Fin Temperature Rise ............................................................954.19 Output Over Current Detection...............................................................974.20 Insufficient Gas.......................................................................................994.21 Low-voltage Detection..........................................................................1014.22 High Pressure Control in Cooling .........................................................102
5. Check ..................................................................................................1045.1 How to Check .......................................................................................104
Part 7 Removal Procedure ........................................................1131. Indoor Unit...........................................................................................114
1.1 Removal of the Air Filter / Front Panel .................................................1141.2 Removal of the Horizontal Blade..........................................................117
Table of Contents iii
Si06-313
1.3 Removal of the Electrical Box ..............................................................1181.4 Removal of the PCB.............................................................................1211.5 Removal of the Heat Exchanger ..........................................................1231.6 Removal of the Fan Rotor / Fan Motor.................................................125
2. Outdoor Unit........................................................................................1272.1 Removal of the Panels and Plates .......................................................1272.2 Removal of the Fan Motor / Propeller Fan ...........................................1312.3 Removal of the PCB / Electrical Box ....................................................1352.4 Removal of the Reactor........................................................................1432.5 Removal of the Sound Blanket.............................................................1452.6 Removal of the Four Way Valve...........................................................1472.7 Removal of the Electronic Expansion Valve.........................................1482.8 Removal of the Compressor.................................................................149
Part 8 Others .............................................................................1511. Others .................................................................................................152
1.1 Test Run from the Remote Controller ..................................................1521.2 Jumper Settings ...................................................................................153
Part 9 Appendix.........................................................................1551. Piping Diagrams..................................................................................156
1.1 Indoor Units ..........................................................................................1561.2 Outdoor Units .......................................................................................157
2. Wiring Diagrams..................................................................................1582.1 Indoor Units ..........................................................................................1582.2 Outdoor Units .......................................................................................159
Index ............................................................................................. i
Drawings & Flow Charts ................................................................ v
iv Table of Contents
Si06-313 Introduction
1. Introduction1.1 Safety Cautions
Cautions and Warnings
Be sure to read the following safety cautions before conducting repair work.The caution items are classified into “ Warning” and “ Caution”. The “ Warning” items are especially important since they can lead to death or serious injury if they are not followed closely. The “ Caution” items can also lead to serious accidents under some conditions if they are not followed. Therefore, be sure to observe all the safety caution items described below.About the pictograms
This symbol indicates an item for which caution must be exercised. The pictogram shows the item to which attention must be paid.
This symbol indicates a prohibited action. The prohibited item or action is shown inside or near the symbol.
This symbol indicates an action that must be taken, or an instruction. The instruction is shown inside or near the symbol.
After the repair work is complete, be sure to conduct a test operation to ensure that the equipment operates normally, and explain the cautions for operating the product to the customer.
1.1.1 Caution in Repair
Warning
Be sure to disconnect the power cable plug from the plug socket before disassembling the equipment for a repair.Working on the equipment that is connected to a power supply can cause an electrical shook.If it is necessary to supply power to the equipment to conduct the repair or inspecting the circuits, do not touch any electrically charged sections of the equipment.
If the refrigerant gas discharges during the repair work, do not touch the discharging refrigerant gas.The refrigerant gas can cause frostbite.
When disconnecting the suction or discharge pipe of the compressor at the welded section, release the refrigerant gas completely at a well-ventilated place first.If there is a gas remaining inside the compressor, the refrigerant gas or refrigerating machine oil discharges when the pipe is disconnected, and it can cause injury.
If the refrigerant gas leaks during the repair work, ventilate the area. The refrigerant gas can generate toxic gases when it contacts flames.
The step-up capacitor supplies high-voltage electricity to the electrical components of the outdoor unit.Be sure to discharge the capacitor completely before conducting repair work.A charged capacitor can cause an electrical shock.
Do not start or stop the air conditioner operation by plugging or unplugging the power cable plug.Plugging or unplugging the power cable plug to operate the equipment can cause an electrical shock or fire.
v
Introduction Si06-313
1.1.2 Cautions Regarding Products after Repair
Caution
Do not repair the electrical components with wet hands.Working on the equipment with wet hands can cause an electrical shock.
Do not clean the air conditioner by splashing water.Washing the unit with water can cause an electrical shock.
Be sure to provide the grounding when repairing the equipment in a humid or wet place, to avoid electrical shocks.
Be sure to turn off the power switch and unplug the power cable when cleaning the equipment.The internal fan rotates at a high speed, and cause injury.
Do not tilt the unit when removing it.The water inside the unit can spill and wet the furniture and floor.
Be sure to check that the refrigerating cycle section has cooled down sufficiently before conducting repair work.Working on the unit when the refrigerating cycle section is hot can cause burns.
Use the welder in a well-ventilated place.Using the welder in an enclosed room can cause oxygen deficiency.
Warning
Be sure to use parts listed in the service parts list of the applicable model and appropriate tools to conduct repair work. Never attempt to modify the equipment. The use of inappropriate parts or tools can cause an electrical shock, excessive heat generation or fire.
When relocating the equipment, make sure that the new installation site has sufficient strength to withstand the weight of the equipment.If the installation site does not have sufficient strength and if the installation work is not conducted securely, the equipment can fall and cause injury.
Be sure to install the product correctly by using the provided standard installation frame.Incorrect use of the installation frame and improper installation can cause the equipment to fall, resulting in injury.
For integral units only
Be sure to install the product securely in the installation frame mounted on a window frame.If the unit is not securely mounted, it can fall and cause injury.
For integral units only
vi
Si06-313 Introduction
1.1.3 Inspection after Repair
Be sure to use an exclusive power circuit for the equipment, and follow the technical standards related to the electrical equipment, the internal wiring regulations and the instruction manual for installation when conducting electrical work.Insufficient power circuit capacity and improper electrical work can cause an electrical shock or fire.
Be sure to use the specified cable to connect between the indoor and outdoor units. Make the connections securely and route the cable properly so that there is no force pulling the cable at the connection terminals.Improper connections can cause excessive heat generation or fire.
When connecting the cable between the indoor and outdoor units, make sure that the terminal cover does not lift off or dismount because of the cable.If the cover is not mounted properly, the terminal connection section can cause an electrical shock, excessive heat generation or fire.
Do not damage or modify the power cable.Damaged or modified power cable can cause an electrical shock or fire.Placing heavy items on the power cable, and heating or pulling the power cable can damage the cable.
Do not mix air or gas other than the specified refrigerant (R410A) in the refrigerant system.If air enters the refrigerating system, an excessively high pressure results, causing equipment damage and injury.
If the refrigerant gas leaks, be sure to locate the leak and repair it before charging the refrigerant. After charging refrigerant, make sure that there is no refrigerant leak. If the leak cannot be located and the repair work must be stopped, be sure to perform pump-down and close the service valve, to prevent the refrigerant gas from leaking into the room. The refrigerant gas itself is harmless, but it can generate toxic gases when it contacts flames, such as fan and other heaters, stoves and ranges.
When replacing the coin battery in the remote controller, be sure to disposed of the old battery to prevent children from swallowing it.If a child swallows the coin battery, see a doctor immediately.
Warning
Caution
Installation of a leakage breaker is necessary in some cases depending on the conditions of the installation site, to prevent electrical shocks.
Do not install the equipment in a place where there is a possibility of combustible gas leaks.If a combustible gas leaks and remains around the unit, it can cause a fire.
Be sure to install the packing and seal on the installation frame properly.If the packing and seal are not installed properly, water can enter the room and wet the furniture and floor.
For integral units only
Warning
Check to make sure that the power cable plug is not dirty or loose, then insert the plug into a power outlet all the way.If the plug has dust or loose connection, it can cause an electrical shock or fire.
If the power cable and lead wires have scratches or deteriorated, be sure to replace them.Damaged cable and wires can cause an electrical shock, excessive heat generation or fire.
vii
Introduction Si06-313
1.1.4 Using IconsIcons are used to attract the attention of the reader to specific information. The meaning of each icon is described in the table below:
1.1.5 Using Icons List
Do not use a joined power cable or extension cable, or share the same power outlet with other electrical appliances, since it can cause an electrical shock, excessive heat generation or fire.
Warning
Caution
Check to see if the parts and wires are mounted and connected properly, and if the connections at the soldered or crimped terminals are secure.Improper installation and connections can cause excessive heat generation, fire or an electrical shock.
If the installation platform or frame has corroded, replace it.Corroded installation platform or frame can cause the unit to fall, resulting in injury.
Check the grounding, and repair it if the equipment is not properly grounded.Improper grounding can cause an electrical shock.
Be sure to measure the insulation resistance after the repair, and make sure that the resistance is 1 Mohm or higher.Faulty insulation can cause an electrical shock.
Be sure to check the drainage of the indoor unit after the repair.Faulty drainage can cause the water to enter the room and wet the furniture and floor.
Icon Type of Information
Description
Note:
Note A “note” provides information that is not indispensable, but may nevertheless be valuable to the reader, such as tips and tricks.
Caution
Caution A “caution” is used when there is danger that the reader, through incorrect manipulation, may damage equipment, loose data, get an unexpected result or has to restart (part of) a procedure.
Warning
Warning A “warning” is used when there is danger of personal injury.
Reference A “reference” guides the reader to other places in this binder or in this manual, where he/she will find additional information on a specific topic.
viii
Si06-313
List of Functions 1
Part 1Part 1Part 1Part 1List of FunctionsList of FunctionsList of FunctionsList of Functions
1. List of Functions ......................................................................................21.1 Cooling Only.............................................................................................21.2 Heat Pump ...............................................................................................3
List of Functions Si06-313
1. List of Functions1.1 Cooling Only
Category Functions
FV
KS
50B
VM
BR
KS
50B
VM
B
FV
KS
50B
VM
BR
S50
BV
MB
Category Functions
FV
KS
50B
VM
BR
KS
50B
VM
B
FV
KS
50B
VM
BR
S50
BV
MB
Basic Function
Inverter (with Inverter Power Control) —
Health & Clean
Air Purifying Filter with Bacteriostatic, Virustatic FunctionsOperation Limit for Cooling (°CDB) –10
~46–10~46
Operation Limit for Heating (°CWB) — — Photocatalytic Deodorizing Filter
PAM Control — Air Purifying Filter with Photocatalytic Deodorizing Function — —
Compressor
Oval Scroll Compressor — — Longlife Filter — —
Swing Compressor Ultra-Longlife Filter (Option) — —
Rotary Compressor — — Mold Proof Air Filter
Reluctance DC Motor Wipe-clean Flat Panel — —
Comfortable Airflow
Power-Airflow Flap — — Washable Grille
Power-Airflow Dual Flaps — — Filter Cleaning Indicator — —
Power-Airflow Diffuser — — Good-Sleep Cooling Operation — —
Wide-Angle LouversTimer
24-Hour On/Off Timer
Vertical Auto-Swing (Up and Down) Night Set Mode
Horizontal Auto-Swing (Right and Left) — —
Worry Free “Reliability & Durability”
Auto-Restart (after Power Failure)
3-D Airflow — — Self-Diagnosis (Digital, LED) Display
3-Step Airflow (H/P Only) — — Wiring Error Check — —
Comfort Control
Auto Fan Speed Anticorrosion Treatment of Outdoor Heat ExchangerIndoor Unit Silent Operation
Night Quiet Mode (Automatic) — —
Flexibility
Multi-Split / Split Type Compatible Indoor UnitOutdoor Unit Silent Operation (Manual)
Intelligent Eye — — Flexible Voltage Correspondence
Quick Warming Function — — High Ceiling Application — —
Hot-Start Function — — Chargeless 10m 10m
Automatic Defrosting — — Power Selection — —
Operation
Automatic Operation — —
Remote Control
5-Rooms Centralized Controller (Option)
Programme Dry Function Remote Control Adaptor(Normal Open-Pulse Contact)(Option)Fan Only
Lifestyle Convenience
New Powerful Operation (Non-Inverter) — Remote Control Adaptor (Normal Open Contact)(Option)Inverter Powerful Operation —
Priority-Room Setting — — DIII-NET Compatible (Adaptor)(Option)
Cooling / Heating Mode Lock — — Remote Controller
Wireless
Home Leave Operation Wired — —
Indoor Unit On/Off Switch
Signal Reception Indicator
Temperature Display — —
Another Room Operation — —
Note: : Holding Functions— : No Functions
2 List of Functions
Si06-313 List of Functions
1.2 Heat Pump
Category Functions
FV
XS
50B
VM
BR
XS
50B
VM
B
FV
XS
50B
VM
BR
XS
50B
VM
A
Category Functions
FV
XS
50B
VM
BR
XS
50B
VM
B
FV
XS
50B
VM
BR
XS
50B
VM
A
Basic Function
Inverter (with Inverter Power Control)
Health & Clean
Air Purifying Filter with Bacteriostatic, Virustatic FunctionsOperation Limit for Cooling (°CDB) –10
~46–5
~46
Operation Limit for Heating (°CWB) –15~18
–15~18 Photocatalytic Deodorizing Filter
PAM Control Air Purifying Filter with Photocatalytic Deodorizing Function — —
Compressor
Oval Scroll Compressor — — Longlife Filter — —
Swing Compressor Ultra-Longlife Filter (Option) — —
Rotary Compressor — — Mold Proof Air Filter
Reluctance DC Motor Wipe-clean Flat Panel — —
Comfortable Airflow
Power-Airflow Flap — — Washable Grille
Power-Airflow Dual Flaps — — Filter Cleaning Indicator — —
Power-Airflow Diffuser — — Good-Sleep Cooling Operation — —
Wide-Angle LouversTimer
24-Hour On/Off Timer
Vertical Auto-Swing (Up and Down) Night Set Mode
Horizontal Auto-Swing (Right and Left) — —
Worry Free “Reliability & Durability”
Auto-Restart (after Power Failure)
3-D Airflow — — Self-Diagnosis (Digital, LED) Display
3-Step Airflow (H/P Only) Wiring Error Check — —
Comfort Control
Auto Fan Speed Anticorrosion Treatment of Outdoor Heat ExchangerIndoor Unit Silent Operation
Night Quiet Mode (Automatic) — —
Flexibility
Multi-Split / Split Type Compatible Indoor UnitOutdoor Unit Silent Operation (Manual)
Intelligent Eye — — Flexible Voltage Correspondence
Quick Warming Function High Ceiling Application — —
Hot-Start Function Chargeless 10m 10m
Automatic Defrosting Power Selection — —
Operation
Automatic Operation
Remote Control
5-Rooms Centralized Controller (Option)
Programme Dry Function Remote Control Adaptor(Normal Open-Pulse Contact)(Option)Fan Only
Lifestyle Convenience
New Powerful Operation (Non-Inverter) — — Remote Control Adaptor (Normal Open Contact)(Option)Inverter Powerful Operation
Priority-Room Setting — — DIII-NET Compatible (Adaptor)(Option)
Cooling / Heating Mode Lock — — Remote Controller
Wireless
Home Leave Operation Wired — —
Indoor Unit On/Off Switch
Signal Reception Indicator
Temperature Display — —
Another Room Operation — —
Note: : Holding Functions— : No Functions
List of Functions 3
Si06-313
Specifications 5
Part 2Part 2Part 2Part 2SpecificationsSpecificationsSpecificationsSpecifications
1. Specifications ..........................................................................................61.1 Cooling Only.............................................................................................61.2 Heat Pump ...............................................................................................7
Specifications Si06-313
1. Specifications1.1 Cooling Only
230V, 50Hz
Notes: MAX. interunit piping length: 30m MAX. interunit height difference: 20m Amount of additional charge of refrigerant 20g/m for piping length exceeding 10m The data are based on the conditions shown in the table below.
SL : The silent fan level of the air flow rate setting.
ModelIndoor Units FVKS50BVMB FVKS50BVMBOutdoor Units RKS50BVMB RS50BVMB
Capacity kW 4.8 (0.9~5.3) 4.8
Btu/h 16,390 (3,070~18,090) 16,390kcal/h 4,130 (770~4,560) 4,130
Moisture Removal L/h 2.9 2.9Running Current A 7.5 7.5Power Consumption W 1,700 (450~2,350) 1,700Power Factor % 98.6 98.6COP W/W 2.82 2.82
Piping Connections
Liquid mm φ 6.4 φ 6.4Gas mm φ12.7 φ 12.7Drain mm φ 20.0 φ 20.0
Heat Insulation Both Liquid and Gas Pipes Both Liquid and Gas PipesIndoor Unit FVKS50BVMB FVKS50BVMBFront Panel Color Almond White Almond White
Air Flow Rate m³/min (cfm)
H 10.8 (381) 10.8 (381)M 9.2 (325) 9.2 (325)L 7.7 (272) 7.7 (272)
SL 6.7 (237) 6.7 (237)
FanType Cross Flow Fan Cross Flow FanMotor Output W 14+14 14+14Speed Steps 5 Steps, Silent and Auto 5 Steps, Silent and Auto
Air Direction Control Right, Left, Horizontal and Upward Right, Left, Horizontal and UpwardAir Filter Removable / Washable / Mildew Proof Removable / Washable / Mildew ProofRunning Current A 0.26 0.26Power Consumption W 55 55Power Factor % 92.0 92.0Temperature Control Microcomputer Control Microcomputer ControlDimensions (H×W×D) mm 600×650×195 600×650×195Packaged Dimensions (H×W×D) mm 714×770×294 714×770×294Weight kg 13 13Gross Weight kg 19 19Operation Sound H/M/L/SL dBA 44 / 40 / 36 / 33 44 / 40 / 36 / 33
Sound Power H dBA 56 56Outdoor Unit RKS50BVMB RS50BVMBCasing Color Ivory White Ivory White
CompressorType Hermetically Sealed Swing Type Hermetically Sealed Swing TypeModel 2YC32HXD 2YC32HXDMotor Output W 1,500 1,500
Refrigerant Oil
Model FVC50K FVC50KCharge L 0.65 0.65
RefrigerantModel R410A R410ACharge kg 1.20 1.20
Air Flow Rate m³/min (cfm)H 47.7 (1,684) 47.7 (1,684)L 44.1 (1,557) 44.1 (1,557)
FanType Propeller PropellerMotor Output W 53 53
Running Current A 7.20 7.20Power Consumption W 1,645 1,645Power Factor % 99.3 99.3Starting Current A 7.5 7.5Dimensions (H×W×D) mm 735×825×300 735×825×300Packaged Dimensions (H×W×D) mm 784×960×390 784×960×390Weight kg 49 49Gross Weight kg 53 53Operation Sound H/L dBA 47 / — 47 / —
Sound Power H dBA 63 63Drawing No. 3D040833 C : 3D040834
Conversion Formulae
kcal/h=kW×860Btu/h=kW×3414
cfm=m³/min×35.3Cooling Piping Length
Indoor ; 27°CDB/19°CWBOutdoor ; 35°CDB/24°CWB 7.5m
6 Specifications
Si06-313 Specifications
1.2 Heat Pump230V, 50Hz 240V, 50Hz
Notes: MAX. interunit piping length: 30m MAX. interunit height difference: 20m Amount of additional charge of refrigerant 20g/m for piping length exceeding 10m The data are based on the conditions shown in the table below.
SL : The silent fan level of the air flow rate setting.
ModelIndoor Units FVXS50BVMB FVXS50BVMB
Outdoor UnitsRXS50BVMB RXS50BVMA
Cooling Heating Cooling Heating
Capacity kW 4.8 (0.9~5.3) 6.0 (0.9~7.7) 4.8 (0.9~5.3) 6.0 (0.9~7.7)
Btu/h 16,390 (3,070~18,090) 20,480 (3,070~26,290) 16,390 (3,070~18,090) 20,480 (3,070~26,290)kcal/h 4,130 (770~4,560) 5,160 (770~6,620) 4,130 (770~4,560) 5,160 (770~6,620)
Moisture Removal L/h 2.9 — 2.9 —Running Current A 7.5 8.2 7.2 7.9Power Consumption W 1,700 (450~2,350) 1,870 (310~2,600) 1,700 (450~2,350) 1,870 (450~2,800)Power Factor % 98.6 99.2 98.4 98.6COP W/W 2.82 3.21 2.82 3.21
Piping Connections
Liquid mm φ 6.4 φ 6.4Gas mm φ 12.7 φ12.7Drain mm φ20.0 φ 20.0
Heat Insulation Both Liquid and Gas Pipes Both Liquid and Gas PipesIndoor Unit FVXS50BVMB FVXS50BVMBFront Panel Color Almond White Almond White
Air Flow Rate m³/min (cfm)
H 10.8 (381) 13.2 (466) 10.8 (381) 13.2 (466)M 9.2 (325) 11.3 (399) 9.2 (325) 11.3 (399)L 7.7 (272) 9.4 (332) 7.7 (272) 9.4 (332)
SL 6.7 (237) 8.3 (293) 6.7 (237) 8.3 (293)
FanType Cross Flow Fan Cross Flow FanMotor Output W 14+14 14+14Speed Steps 5 Steps, Silent and Auto 5 Steps, Silent and Auto
Air Direction Control Right, Left, Horizontal and Upward Right, Left, Horizontal and UpwardAir Filter Removable / Washable / Mildew Proof Removable / Washable / Mildew ProofRunning Current A 0.26 0.32 0.25 0.31Power Consumption W 55 70 55 70Power Factor % 92.0 95.1 91.7 94.1Temperature Control Microcomputer Control Microcomputer ControlDimensions (H×W×D) mm 600×650×195 600×650×195Packaged Dimensions (H×W×D) mm 714×770×294 714×770×294Weight kg 13 13Gross Weight kg 19 19Operation Sound H/M/L/SL dBA 44 / 40 / 36 / 33 45 / 40 / 36 / 33 44 / 40 / 36 / 33 45 / 40 / 36 / 33
Sound Power H dBA 56 57 56 57Outdoor Unit RXS50BVMB RXS50BVMACasing Color Ivory White Ivory White
CompressorType Hermetically Sealed Swing Type Hermetically Sealed Swing TypeModel 2YC32HXD 2YC32HXDMotor Output W 1,500 1,500
Refrigerant Oil
Model FVC50K FVC50KCharge L 0.65 0.65
RefrigerantModel R410A R410ACharge kg 1.20 1.20
Air Flow Rate m³/min (cfm)H 47.7 (1,684) 44.1 (1,557) 47.7 (1,684) 44.1 (1,557)L 44.1 (1,557) 44.1 (1,557) 44.1 (1,557) 44.1 (1,557)
FanType Propeller PropellerMotor Output W 53 53
Running Current A 7.20 7.90 6.95 7.59Power Consumption W 1,645 1,800 1,645 1,800Power Factor % 99.3 99.1 98.6 98.8Starting Current A 7.5 7.9Dimensions (H×W×D) mm 735×825×300 735×825×300Packaged Dimensions (H×W×D) mm 784×960×390 784×960×390Weight kg 49 48Gross Weight kg 53 53Operation Sound H/L dBA 47 / — 48 / — 47 / 44 48 / 45
Sound Power H dBA 63 64 63 64Drawing No. 3D040831 3D040832
Conversion Formulae
kcal/h=kW×860Btu/h=kW×3414
cfm=m³/min×35.3Cooling Heating Piping Length
Indoor ; 27°CDB/19°CWBOutdoor ; 35°CDB/24°CWB
Indoor ; 20°CDBOutdoor ; 7°CDB/6°CWB 7.5m
Specifications 7
Si06-313
Printed Circuit Board Connector Wiring Diagram 9
Part 3Part 3Part 3Part 3Printed Circuit BoardPrinted Circuit BoardPrinted Circuit BoardPrinted Circuit Board
Connector Wiring DiagramConnector Wiring DiagramConnector Wiring DiagramConnector Wiring Diagram
1. Printed Circuit Board Connector Wiring Diagram..................................101.1 Indoor Unit..............................................................................................101.2 Outdoor Unit ...........................................................................................12
Printed Circuit Board Connector Wiring Diagram Si06-313
1. Printed Circuit Board Connector Wiring Diagram1.1 Indoor Unit
Connectors
Note: Other designations
PCB Detail PCB(1): Power Supply PCB (indoor unit)
1) S6 Connector for swing motor (upper and lower)2) S7, S201, S203 Connector for power supply PCB3) S8, S24, S26
S202, S204Connector for control PCB
4) S21 Connector for centralized control (HA)5) S23 Connector for display PCB6) S25 Connector for service PCB7) S31 Connector for room temperature thermistor8) S32 Connector for heat exchanger thermistor9) S301 Connector for fan motor (upper)10) S302 Connector for fan motor (lower)
1) V1 Varistor2) JA Address setting jumper JB Fan speed setting when compressor is OFF on thermostat JC Power failure recovery function ∗ Refer to page 153 for detail.3) SW1 Operation switch4) SW2 Switch for upward air flow limit5) SW4 Switch for air outlet selection6) LED11 LED for operation (green)7) LED12 LED for timer (yellow)8) LED14 LED for Home Leave operation (red)9) FU Fuse (3.15A)
S202
S204
S8
(R3025)
10 Printed Circuit Board Connector Wiring Diagram
Si06-313 Printed Circuit Board Connector Wiring Diagram
PCB(2): Control PCB (indoor unit)
PCB(3): Service PCB PCB(4): Display PCB
JAJBJC
S21
S203 S32 S31 S7 V1 FU(R3026)
S201
S301S302S25S23S6
SW2
SW4 S26
(R3027)SW1
LED11 LED12 LED14
S24
(R3028)
Printed Circuit Board Connector Wiring Diagram 11
Printed Circuit Board Connector Wiring Diagram Si06-313
1.2 Outdoor Unit
Connectors
Note: Other Designations
1) S10, AC2, HL Connector for terminal strip2) S20 Connector for electronic expansion valve coil3) S31, S32 Connector for SPM4) S33, S71 Connector for MID5) S34, S52, S72, S102
CN11, CN14HAC1, HE1
Connector for control PCB
6) S40 Connector for overload protector7) S51, S101 Connector for service monitor PCB8) S70 Connector for fan motor9) S80 Connector for four way valve coil10) S90 Connector for thermistors
(outdoor air, heat exchanger, and discharge pipe)11) S91 Connector for fin thermistor12) AC1, E Connector for power supply PCB13) H1, H2 Connector for diode bridge14) HE2 Connector for earth15) L1, L2 Connector for reactor
1) FU1 Fuse (30A)2) FU2, FU201 Fuse (3.15A)3) LED A Service monitor LED4) SW1 Forced operation ON/OFF switch5) SW4 Field setting switch6) V3 Varistor
12 Printed Circuit Board Connector Wiring Diagram
Si06-313 Printed Circuit Board Connector Wiring Diagram
PCB Detail PCB(1): Control PCB (outdoor unit)
E AC1 FU2(3.15A)
H1
H2
S32
S33
S71
S31
S91(R2865)
S40S20S90S101S51
S80
S10
AC2
PCB(2): Power Supply PCB (outdoor unit) Service Monitor PCB
HAC1
HE1
V3
HE2
(R2866)
HL
FU1(30A)
S52
S102 SW4(R2867)
SW1
LED-A
Printed Circuit Board Connector Wiring Diagram 13
Printed Circuit Board Connector Wiring Diagram Si06-313
MID
SPM
S34
S72
(R2868)S70FU201 (3.15A)
(R2869)
CN14
CN11
L1
L2
14 Printed Circuit Board Connector Wiring Diagram
Si06-313
Function and Control 15
Part 4Part 4Part 4Part 4 Function and Control Function and Control Function and Control Function and Control
1. Main Functions......................................................................................161.1 Frequency Principle................................................................................161.2 Wide Angle Louvers and Auto-Swing.....................................................181.3 Fan Speed Control for Indoor Units........................................................191.4 Programme Dry Function .......................................................................201.5 Automatic Operation...............................................................................211.6 Night Set Mode.......................................................................................221.7 Home Leave Operation ..........................................................................231.8 Inverter Powerful Operation ...................................................................241.9 Other Functions......................................................................................25
2. Function of Main Structural Parts..........................................................262.1 Function of Thermistor ...........................................................................26
3. Control Specification .............................................................................283.1 Mode Hierarchy ......................................................................................283.2 Frequency Control..................................................................................293.3 Controls at Mode Changing / Start-up....................................................313.4 Discharge Pipe Temperature Control.....................................................323.5 Input Current Control..............................................................................323.6 Freeze-up Protection Control .................................................................333.7 Heating Peak-cut Control .......................................................................333.8 Fan Control.............................................................................................343.9 Moisture Protection Function 2...............................................................343.10 Low Hz High Pressure Limit ...................................................................353.11 Defrost Control .......................................................................................353.12 Electronic Expansion Valve Control .......................................................363.13 Malfunctions ...........................................................................................393.14 Forced Operation Mode .........................................................................403.15 Additional Function.................................................................................40
Main Functions Si06-313
1. Main FunctionsNote: See the list of functions for the functions applicable to different models.
1.1 Frequency Principle
Main Control Parameters
The compressor is frequency-controlled during normal operation. The target frequency is set by the following 2 parameters coming from the operating indoor unit:
The load condition of the operating indoor unitThe difference between the room temperature and the set temperature
Additional Control Parameters
The target frequency is adapted by additional parameters in the following cases:Frequency restrictionsInitial settingsForced cooling operation
Inverter Principle To regulate the capacity, a frequency control is needed. The inverter makes it possible to vary the rotation speed of the compressor. The following table explains the conversion principle:
Drawing of Inverter
The following drawing shows a schematic view of the inverter principle:
Phase Description
1 The supplied AC power source is converted into the DC power source for the present.
2 The DC power source is reconverted into the three phase AC power source with variable frequency.
When the frequency increases, the rotation speed of the compressor increases resulting in an increased refrigerant circulation. This leads to a higher amount of the heat exchange per unit.When the frequency decreases, the rotation speed of the compressor decreases resulting in a decreased refrigerant circulation. This leads to a lower amount of the heat exchange per unit.
50 Hz60 Hz
Refrigerant circulation rate (high)
Amount of heatexchanged air (large)
Amount of heatexchanged air (small)
AC
pow
er
freq=constant
DC
pow
er
Amount of heatexchanged air (large)
Amount of heatexchanged air (small)
high f
low f
freq=variable capacity=variable
Refrigerant circulation rate (low)
high speed
low speed
(R2812)
16 Function and Control
Si06-313 Main Functions
Inverter Features The inverter provides the following features:The regulating capacity can be changed according to the changes in the outside temperature and cooling/heating load.Quick heating and quick coolingThe compressor rotational speed is increased when starting the heating (or cooling). This enables a quick set temperature.
Even during extreme cold weather, the high capacity is achieved. It is maintained even when the outside temperature is 2°C.Comfortable air conditioning A detailed adjustment is integrated to ensure a fixed room temperature. It is possible to air condition with a small room temperature variation.Energy saving heating and coolingOnce the set temperature is reached, the energy saving operation enables to maintain the room temperature at low power.
Frequency Limits The following table shows the functions that define the minimum and maximum frequency:
Forced Cooling Operation
For more information, refer to “Forced operation mode” on page 40.
60 120 300
45˚C
Air dischargetemperature
inverter
normal heat pump
Start seconds(R1187)
Frequency limits Limited during the activation of following functions
Low Four way valve operation compensation. Refer to page 31.
High Input current control. Refer to page 32.Compressor protection function. Refer to page 31.Heating peak-cut control. Refer to page 33.Freeze-up protection control. Refer to page 33.Defrost control. Refer to page 35.
Function and Control 17
Main Functions Si06-313
1.2 Wide Angle Louvers and Auto-Swing
Wide-Angle Louvres
The louvres, made of elastic synthetic resin, provide a wide range of airflow that guarantees a comfortable air distribution.
Auto-Swing The following table explains the auto-swing process for heating, cooling, dry and fan :
right and left(manual)
upper air outlet
lower air outlet
60˚ 60˚
(R3033)
60˚ 60˚
(R3034)
up and down (automatic)
heating cooling/dry/fan
upward air flow limitOFF
upward air flow limitON
30˚
70˚
(R3029)
25˚
95˚
(R3030)
30˚
70˚
(R3031)
15˚
95˚
(R3032)
18 Function and Control
Si06-313 Main Functions
1.3 Fan Speed Control for Indoor Units
Control Mode The airflow rate can be automatically controlled depending on the difference between the set temperature and the room temperature. This is done through phase control and hall IC control.
For more information about hall IC, refer to the troubleshooting for fan motor on page 75.
Phase Steps Phase control and fan speed control contains 9 steps: LLL, LL, SL, L, ML, M, MH, H and HH.
= Within this range the airflow rate is automatically controlled when the FAN setting button is set to automatic.
Note: 1. During powerful operation, fan operates H tap + 50 - 90 rpm.2. Fan stops during defrost operation.
Automatic Air Flow Control for Heating
The following drawing explains the principle for fan speed control for heating:
Automatic Air Flow Control for Cooling
The following drawing explains the principle of fan speed control for cooling:
Step Cooling Heating Dry mode
LLL (Heating thermostat OFF)
50 · 60 · 71kW class : 750 - 1000 rpm(During powerful operation :1050 rpm)
LL (Cooling thermostat OFF)
SL (Silent)
L
ML
M
MH
H
HH (Powerful)(R2818) (R2818)
-1.5˚C
-0.5˚C
-1˚C
-2˚C
L
ML
M
Thermostat
setting
temperature
Phase control
Difference between room
and set temperature
fan speed(R2819)
+1.5˚C
+0.5˚C
+2˚C
+1˚C
M
ML
L
fan speed
Difference between room
and set temperature
Phase control
Thermostat
setting
temperature (R2820)
Function and Control 19
Main Functions Si06-313
1.4 Programme Dry FunctionProgramme dry function removes humidity while preventing the room temperature from lowering.Since the microcomputer controls both the temperature and air flow volume, the temperature adjustment and fan adjustment buttons are inoperable in this mode.
In Case of Inverter Units
The microcomputer automatically sets the temperature and fan settings. The difference between the room temperature at startup and the temperature set by the microcomputer is divided into two zones. Then, the unit operates in the dry mode with an appropriate capacity for each zone to maintain the temperature and humidity at a comfortable level.
Room temperature at startup
Temperature (ON point) at which operation starts
Frequency switching point
Temperature difference for operation stop
24ºC Room temperature at startup
0.5ºC1.5ºC
18ºC18ºC 1.0ºC
17ºC—
0.5˚C
LHz LHz LHz
*55Hz*55Hz
LHz indicates low frequency. Item marked with varies depending on models.
ON point
OFF point5 min 5 min
Compressor
controlStop
Stop Stop Stop
Stop Stop
Indoor unit fan Extra-low air flow
Extra-low air flow
Low air flowLow air flow
(R1359)
Frequency switching point
20 Function and Control
Si06-313 Main Functions
1.5 Automatic OperationAutomatic Cooling / Heating Function (Heat Pump Only)When the AUTO mode is selected with the remote controller, the microcomputer automatically determines the operation mode from cooling and heating according to the room temperature and setting temperature at the time of the operation startup, and automatically operates in that mode.The unit automatically switches the operation mode to cooling or heating to maintain the room temperature at the main unit setting temperature.
Detailed Explanation of the Function
1. Remote controller setting temperature is set as automatic cooling / heating setting temperature (18 to 30°C).
2. Main unit setting temperature equals remote controller setting temperature plus correction value (correction value / cooling: 0 deg, heating: 2 deg.).
3. Operation ON / OFF point and mode switching point are as follows. Heating → Cooling switching point: Room temperature ≥ Main unit setting temperature +2.5 deg. Cooling → Heating switching point: Room temperature < Main unit setting temperature –2.5 deg. Thermostat ON / OFF point is the same as the ON / OFF point of cooling or heating operation.
4. During initial operationRoom temperature ≥ Remote controller setting temperature: Cooling operationRoom temperature < Remote controller setting temperature: Heating operation
Heating / cooling switching point 2.5 deg.
or higher(Heating thermostat OFF point)
Main unit settingtemperature
(Cooling thermostat OFF point)
Cooling /heating switching point Cooling
operationHeating operation
Cooling operation
With compressor capacity supplied
With no compressor capacity supplied
(1.5 deg.) or higher
Less than (1.5 deg.)
2.5 deg. or higher
(R1360)
Function and Control 21
Main Functions Si06-313
1.6 Night Set ModeWhen the OFF timer is set, the Night Set circuit automatically activates.The Night Set circuit maintains the airflow setting made by users.
The Night Set Circuit
The Night Set circuit continues heating or cooling the room at the set temperature for the first one hour, then automatically lowers the temperature setting slightly in the case of cooling, or raises it slightly in the case of heating, for economical operations. This prevents excessive heating in winter and excessive cooling in summer to ensure comfortable sleeping conditions, and also conserves electricity.
Cooling Operation
Heating Operation
22 Function and Control
Si06-313 Main Functions
1.7 Home Leave Operation
Outline In order to respond to the customer's need for immediate heating and cooling of the room after returning home or for house care, a measure to switch the temperature and air volume from that for normal time over to outing time by one touch is provided. (This function responds also to the need for keeping up with weak cooling or heating.) This time, we seek for simplicity of operation by providing the special temperature and air volume control for outing to be set by the exclusive button.
Detail of the Control
1. Start of FunctionThe function starts when the [HOME LEAVE] button is pressed in cooling mode or heating mode (including stopping and powerful operation). If this button is pressed while the operation is stopped, the function becomes effective when the operation is started. If this button is pressed in powerful operation, the powerful operation is reset and this function becomes effective.
The [HOME LEAVE] button is ineffective in dry mode and fan mode.
2. Details of FunctionA mark representing [HOME LEAVE] is indicated on the liquid crystal display of the remote controller. The indoor unit is operated according to the set temperature and air volume for HOME LEAVE which were pre-set in the memory of the remote controller.The LED (Red) of indoor unit representing [HOME LEAVE] lights up. (It goes out when the operation is stopped.)
3. End of FunctionThe function ends when the [HOME LEAVE] button is pressed again during [HOME LEAVE] operation or when the powerful operation button is pressed.
Others The set temperature and set air volume are memorized in the remote controller. When the remote controller is reset due to replacement of battery, it is necessary to set the temperature and air volume again for [HOME LEAVE].
Function and Control 23
Main Functions Si06-313
1.8 Inverter Powerful Operation
Outline In order to exploit the cooling and heating capacity to full extent, operate the air conditioner by increasing the indoor fan rotating speed and the compressor frequency.
Details of the Control
When Powerful button is pushed in each operation mode, the fan speed/setting temperature will be converted to the following states in a period of twenty minutes.
Ex.) : Powerful operation in cooling mode.
Operation mode Fan speed Target set temperature
Cooling H tap + 90 rpm 18°C
Dry Dry rotating speed + 50 rpm
Normally targeted temperature in dry
operation; Approx. - 2°C
Heating H tap + 90 rpm 30°C
Fan H tap + 90 rpm —
Automatic Same as cooling /heating in Powerful
operation
The target is kept unchanged
(R2823)
Target temp.
Fan
80rpm
Set temp.
18˚C
Powerful ON
Powerful OFF
H tap
Set tap
It should be the lower limit of cooling temperature.
It counts 20 min. also in the remote controller.
Ending condition: "or" in 1 to 31. TPF ends.2. Stop3. Powerful operation is OFF.TPF=(20min.)
24 Function and Control
Si06-313 Main Functions
1.9 Other Functions1.9.1 Hot Start Function
Heat Pump OnlyIn order to prevent the cold air blast that normally comes when heating is started, the temperature of the heat exchanger of the indoor unit is detected, and either the air flow is stopped or is made very weak thereby carrying out comfortable heating of the room.*The cold air blast is also prevented using a similar control when the defrosting operation is started or when the thermostat gets turned ON.
1.9.2 Signal Receiving SignWhen the indoor unit receives a signal from the remote controller, the unit emits a signal receiving sound.
1.9.3 ON/OFF Button on Indoor UnitAn ON/OFF switch is provided on the front panel of the unit. Use this switch when the remote controller is missing or if its battery has run out. Every press of the switch changes from Operation to Stop or from Stop to Operation
Push this button once to start operation. Push once again to stop it.This button is useful when the remote controller is missing.The operation mode refers to the following table.
In the case of multi system operation, there are times when the unit does not activate with this button.
1.9.4 Photocatalytic Deodorizing FilterPhotocatalytic Deodorizing Filter demonstrates powerful oxidation characteristics when subjected to harmless ultraviolet light. Photocatalytic deodorizing power is recovered simply by exposing the filter to the sun for 6 hours once every 6 months.
1.9.5 Air Purifying FilterA double structure made up of a bacteriostatic filter and an Air-Purifying Filter traps dust, mildew, mites, tobacco smoke, and allergy-causing pollen. Replace the Air-Purifying Filter once every 3 months.
1.9.6 Mold Proof Air FilterThe filter net is treated with mold resisting agent TBZ (harmless, colorless, and odorless). Due to this treatment, the amount of mold growth is much smaller than that of normal filters.
1.9.7 Self-Diagnosis Digital DisplayThe microcomputer continuously monitors main operating conditions of the indoor unit, outdoor unit and the entire system. When an abnormality occur, the LCD remote controller displays error code. These indications allow prompt maintenance operations.
1.9.8 Auto-restart FunctionEven if a power failure (including one for just a moment) occurs during the operation, the operation restarts in the condition before power failure automatically when power is restored.(Note) It takes 3 minutes to restart the operation because the 3-minute standby function is activated.
ON / OFF button
(R3054)
Mode Temperature setting Air flow rate
Cooling Only COOL 22ºC AUTO
Heat Pump AUTO 25ºC AUTO
Function and Control 25
Function of Main Structural Parts Si06-313
2. Function of Main Structural Parts2.1 Function of Thermistor2.1.1 Heat Pump Model
A Outdoor Heat Exchanger Thermistor (DCB)
1. The outdoor heat exchanger thermistor is used for controlling target discharge temperature.Set a target discharge temperature depending on the outdoor and indoor heat exchanger temperature.Control the electronic expansion valve opening so that the target discharge temperature can be obtained.
2. The outdoor heat exchanger thermistor is used for detecting the discharge thermistor disconnected when cooling.When the temperature of the discharge piping is lower than the temperature of outdoor heat exchanger, a disconnected discharge thermistor can be detected.
3. The outdoor heat exchanger thermistor is used for high pressure protection during cooling operation.
B Discharge Pipe Thermistor (DOT)
1. The discharge pipe thermistor is used to control the discharge pipe.If the temperature of discharge pipe (used in place of the inner temperature of the compressor) rises abnormally, the operating frequency drops or the operation must be halted.
2. The discharge pipe thermistor is used for detecting the discharge thermistor disconnected.
C Indoor Heat Exchanger Thermistor (DCN)
1. The indoor heat exchanger thermistor is used for controlling target discharge pipe temperature.Set a target discharge pipe temperature according to the outdoor and indoor heat exchanger temperature.Control the electronic expansion valve so that the target discharge pipe temperature can be obtained.
2. The indoor heat exchanger thermistor is used to prevent freezing.During the cooling operation, if the temperature drops abnormally, the operating frequency becomes lower, then the operation must be halted.
3. The indoor heat exchanger thermistor is used for anti-icing control.During the cooling operation, if the heat exchanger temperature in the room where operation is halted becomes -1°C, or if the room temperature - heat exchanger temperature in the room where operation is halted becomes ≥10°C, it is assumed as icing.
4. During heating: the indoor heat exchanger thermistor is used for detecting the discharge pipe thermistor disconnected.When the discharge pipe temperature become lower than an indoor heat exchanger temperature, a disconnected discharge pipe thermistor can be detected.
Four way valve
Compressor (R2827)
A
C
B
Electronticexpansion valve
26 Function and Control
Si06-313 Function of Main Structural Parts
2.1.2 Cooling Only Model
A Outdoor Heat Exchanger Thermistor (DCB)
1. The outdoor heat exchanger thermistor is used for controlling target discharge temperature.Set a target discharge temperature depending on the outdoor and indoor heat exchanger temperature.Control the electronic expansion valve opening so that the target discharge temperature can be obtained.
2. When cooling: an outdoor heat exchanger thermistor is used for detecting the discharge thermistor disconnected.When the temperature of the discharge piping is lower than the temperature of outdoor heat exchanger, a disconnected discharge thermistor can be detected.
3. The outdoor heat exchanger thermistor is used for high pressure protection during cooling operation.
B Discharge Pipe Thermistor (DOT)
1. The discharge pipe thermistor is used to control the discharge pipe.If the temperature of discharge pipe (used in place of the inner temperature of the compressor) rises abnormally, the operating frequency drops or the operation must be halted.
2. The discharge pipe thermistor is used for detecting the discharge thermistor disconnected.
C Indoor Heat Exchanger Thermistor (DCN)
1. The indoor heat exchanger thermistor is used for controlling target discharge pipe temperature.Set a target discharge pipe temperature according to the outdoor and indoor heat exchanger temperature.Control the electronic expansion valve opening so that the target discharge pipe temperature can be obtained.
2. The indoor heat exchanger thermistor is used to prevent freezing.During the cooling operation, if the temperature drops abnormally, the operating frequency becomes lower, then the operation must be halted.
3. The indoor heat exchanger thermistor is used for anti-icing control.During the cooling operation, if the heat exchanger temperature in the room where operation is halted becomes -1°C, or if the room temperature - heat exchanger in the room where operation is halted becomes ≥10°C, it is assumed as icing.
A
C
BCompressor
(R2828)
Electronticexpansion valve
Function and Control 27
Control Specification Si06-313
3. Control Specification3.1 Mode Hierarchy
Outline There are two modes; the mode selected in user’s place (normal air conditioning mode) and forced operation mode for installation and providing service.
Detail 1. For heat pump modelThere are following modes; stop, cooling (includes drying), heating (include defrosting)
2. For cooling only model There are following models; stop and cooling (including drying).
Note: Unless specified otherwise, an indoor dry operation command must be regarded as cooling operation.
Air conditioner control mode
Forced operating mode
Forced cooling (for Pump Down Operation)
Normal operating mode
Cooling
Heating
Defrosting
Stop mode (except for cooling/heating modes by indoor command)
Preheat operation
During C (capacitor) is discharging
Stop(R2829)
Air conditioner control mode
Forced operating mode
Forced cooling (for Pump Down Operation)
Normal operating mode
Cooling
Stop mode (except for cooling modes by indoor command)
Preheat operation
During C (capacitor) is discharging
Stop
(R2830)
28 Function and Control
Si06-313 Control Specification
3.2 Frequency Control
Outline Frequency will be determined according to the difference between room and set temperature. The function is explained as follows.1. How to determine frequency.2. Frequency command from an indoor unit. (The difference between a room temperature and
the temperature set by the remote controller.)3. Frequency command from an indoor unit.4. Frequency initial setting.5. PI control.
Detail How to Determine FrequencyThe compressor’s frequency will finally be determined by taking the following steps.
For Heat Pump Model1. Determine command frequency
Command frequency will be determined in the following order of priority.1.1 Limiting frequency by drooping function
Input current, discharge pipes, low Hz high pressure limit, peak cutting, freeze prevention, dew prevention, fin thermistor temperature.
1.2 Limiting defrost control time1.3 Forced cooling1.4 Indoor frequency command2. Determine upper limit frequency
Set a minimum value as an upper limit frequency among the frequency upper limits of the following functions: Compressor protection, input current, discharge pipes, Low Hz high pressure, peak cutting, freeze prevention, defrost.
3. Determine lower limit frequencySet a maximum value as an lower limit frequency among the frequency lower limits of the following functions: Four way valve operating compensation, draft prevention, pressure difference upkeep.
4. Determine prohibited frequencyThere is a certain prohibited frequency such as a power supply frequency.
For Cooling Only Model1. Determine command frequency
Command frequency will be determined in the following order of priority.1.1 Limiting frequency by drooping functionInput current, discharge pipes, freeze prevention, dew prevention, fin thermistor temperature.1.2 Indoor frequency command2. Determine upper limit frequency
Set a minimum value as an upper limit frequency among the frequency upper limits of the following functions: Compressor protection, input current, discharge pipes, freeze prevention, dew prevention, fin thermistor temperature.
Command frequency Limit frequency Skip control
Upper limit functionCompressor protection function
Lower limit functionFour-way valve operating compensation, etc. (*)
Initial frequency PI control
Defrost control (*)
Drooping functionInput current control, etc.
Upper limit frequencyFMAX
Lower limit frequencyFMIN
Target frequency
Command frequency X repeats when frequency becomes lower
Frequency changes by PI control < repeats when frequency becomes lower
*; only for heat pump model
(R2831)
Function and Control 29
Control Specification Si06-313
3. Determine lower limit frequencySet a maximum value as an lower limit frequency among the frequency lower limits of the following functions: Pressure difference upkeep.
4. Determine prohibited frequencyThere is a certain prohibited frequency such as a power supply frequency.
Indoor Frequency Command (∆D signal)The difference between a room temperature and the temperature set by the remote controller will be taken as the “∆D signal” and is used for frequency command.
∗Th OFF = Thermostat OFF
Frequency Initial SettingOutline
When starting the compressor, or when conditions are varied due to the change of the room, the frequency must be initialized according to the total of a maximum ∆D value of the indoor unit and the Q value of the indoor unit.Q value: Indoor unit output determined from indoor unit volume, air flow rate and other factors.
PI Control (Determine Frequency Up/Down by ∆D Signal)1. P control
Calculate ∆D value in each sampling time (20 seconds), and adjust the frequency according to its difference from the frequency previously calculated.
2. I controlIf the operating frequency is not change more than a certain fixed time, adjust the frequency up and down according to the ∆D value, obtaining the fixed ∆D value.When the ∆D value is small...lower the frequency.When the ∆D value is large...increase the frequency.
3. Limit of frequency variation widthWhen the difference between input current and input current drooping value is less than 1.5 A, the frequency increase width must be limited.
4. Frequency management when other controls are functioningWhen frequency is drooping; Frequency management is carried out only when the frequency droops.For limiting lower limit Frequency management is carried out only when the frequency rises.
5. Upper and lower limit of frequency by PI control The frequency upper and lower limits are set depending on indoor unit.When low noise commands come from the indoor unit or when outdoor unit low noise or quiet commands come from indoor unit, the upper limit frequency must be lowered than the usual setting.
Temperature difference
∆D signal
Temperature difference
∆D signal
Temperature difference
∆D signal
Temperature difference
∆D signal
0 ∗Th OFF
2.0 4 4.0 8 6.0 C
0.5 1 2.5 5 4.5 9 6.5 D
1.0 2 3.0 6 5.0 A 7.0 E
1.5 3 3.5 7 5.5 B 7.5 F
30 Function and Control
Si06-313 Control Specification
3.3 Controls at Mode Changing / Start-up3.3.1 Preheating Operation
Outline Operate the inverter in the open phase operation with the conditions including the preheating command (only for heat pump model) from the indoor, the outdoor air temperature and discharge pipe temperature.
Detail Preheating ON ConditionWhen outdoor air temperature is below 10.5ºC and discharge pipe temperature is below 10.5°C, inverter in open phase operation starts.
OFF ConditionWhen outdoor air temperature is higher than 12ºC or discharge pipe temperature is higher than 12°C, inverter in open phase operation stops.
3.3.2 Four Way Valve Switching
Outline of heating operation
Heat Pump OnlyDuring the heating operation current must be conducted and during cooling and defrosting current must not be conducted. In order to eliminate the switching sound (as the four way valve coil switches from ON to OFF) when the heating is stopped, the delay switch of the four way valve must be carried out after the operation stopped.
Detail The OFF delay of four way valve Energize the coil for 150 sec after unit operation is stopped.
3.3.3 Four Way Valve Operation Compensation
Outline Heat Pump OnlyAt the beginning of the operation as the four way valve is switched, acquire the differential pressure required for activating the four way valve by having output the operating frequency, which is more than a certain fixed frequency, for a certain fixed time.
Detail Staring Conditions1. When starting compressor for heating.2. When the operating mode changes from the previous time.3. When starting compressor for starting defrosting or resetting.4. When starting compressor for the first time after the reset with the power is ON.
Set the lower limit frequency to 55 (model by model) Hz for 70 seconds with the OR conditions with 1 through 4 above.
3.3.4 3 Minutes Stand-byProhibit to turn ON the compressor for 3 minutes after turning it off.(Except when defrosting. (Only for Heat Pump Model).)
3.3.5 Compressor Protection FunctionWhen turning the compressor from OFF to ON, the upper limit of frequency must be set as follows. (The function must not be used when defrosting (only for heat pump model).)
FCG 3
FCG 2
FCG 1
85
70
55
Function and Control 31
Control Specification Si06-313
3.4 Discharge Pipe Temperature Control
Outline The discharge pipe temperature is used as the compressor's internal temperature. If the discharge pipe temperature rises above a certain level, the operating frequency upper limit is set to keep this temperature from going up further.
Detail Divide the Zone
Management within the Zones
3.5 Input Current Control
Outline Detect an input current by the CT during the compressor is running, and set the frequency upper limit from such input current.In case of heat pump model, this control is the upper limit control function of the frequency which takes priority of the lower limit of four way valve activating compensation.
Detail The frequency control will be made within the following zones.
When a “stop current” continues for 2.5 seconds after rushing on the stop zone, the compressor operation stops.If a “drooping current” is continues for 1.0 second after rushing on the drooping zone, the frequency will be 2 Hz drooping.Repeating the above drooping continues until the current rushes on the drooping zone without change.In the unchanged zone, the frequency limit will remain.In the return / reset zone, the frequency limit will be cancelled.Limitation of current drooping and stop value according to the outdoor air temperature1. In case the operation mode is cooling
The current droops when outdoor air temperature becomes higher than a certain level (model by model).
2. In case the operation mode is heating (only for heat pump model)The current droops when outdoor air temperature becomes higher than a certain level (model by model).
Zone Control contents
Stop zone When the temperature reaches the stop zone, stop the compressor and correct abnormality.
Drooping zone Start the timer, and the frequency will be drooping.
Unchanged zone Keep the upper limit of frequency.
Return / Reset zone Cancel the upper limit of frequency.
A
B
C
D
(R2836)
ABCD
110103102101
32 Function and Control
Si06-313 Control Specification
3.6 Freeze-up Protection Control
Outline During cooling operation, the signals being sent from the indoor unit allow the operating frequency limitation and then prevent freezing of the indoor heat exchanger. (The signal from the indoor unit must be divided into the zones as the followings.
Detail Conditions for Start ControllingJudge the controlling start with the indoor heat exchanger temperature after 2 sec from operation start.Control in Each Zone
3.7 Heating Peak-cut Control
Outline Heat Pump OnlyDuring heating operation, the signals being sent from the indoor unit allow the operating frequency limitation and prevent abnormal high pressure. (The signal from the indoor unit must be divided as follows.)
Detail Conditions for Start ControllingJudge the controlling start with the indoor heat exchanger temperature after 2 min from operation start.Control in Each ZoneThe heat exchange intermediate temperature of indoor unit controls the following.
Function and Control 33
Control Specification Si06-313
3.8 Fan Control
Outline Fan control is carried out according to the following priority.1. Fan ON control for electric component cooling fan2. Fan control when defrosting3. Fan OFF delay when stopped 4. ON/OFF control in cooling operation5. Tap control when drooping function is working 6. Fan control in forced operation 7. Fan control in indoor/outdoor unit silent operation8. Fan control in powerful mode9. Fan control in normal operation
Detail Fan OFF Control when StoppedFan OFF delay for 60 seconds must be made when the compressor is stopped.
Tap Control in indoor/outdoor unit silent operation1. When Cooling Operation
When the outdoor air temperature is lower than 37°C, the fan tap must be set to L.2. When Heating Operation
When the outdoor air temperature is higher than 4°C, the fan tap must be turned to L (only for heat pump model).
3.9 Moisture Protection Function 2
Outline In order to obtain the dependability of the compressor, the compressor must be stopped according to the conditions of the temperature of the outdoor air and outdoor heat exchanger.
Detail Heat Pump ModelOperation stop depending on the outdoor air temperature
Compressor operation turns OFF under the conditions that the system is in cooling operation and outdoor air temperature is below –10°C.
Cooling Only ModelOperation stops depending on the outdoor air temperature.
Compressor operation turns OFF under the condition that outdoor air temperature is below –12°C.
34 Function and Control
Si06-313 Control Specification
3.10 Low Hz High Pressure Limit
Outline Heat Pump OnlySet the upper limit of high pressure in a low Hz zone. Set the upper limit of the indoor heat exchanger temperature by its operating frequency of Hz. Separate into three zones, reset zone, unchanged zone and drooping zone and the frequency control must be carried out in such zones.
Detail Separate into Zones
Note: Drooping: The system stops 2 minutes after staying in the drooping zone.
3.11 Defrost Control
Outline Heat Pump OnlyDefrosting is carried out by the cooling cycle (reverse cycle). The defrosting time or outdoor heat exchanger temperature must be more than its fixed value when finishing.
Detail Conditions for Starting DefrostThe starting conditions must be made with the outdoor air temperature and heat exchanger temperature. Under the conditions that the system is in heating operation, 6 minutes after the compressor is started and more than 44 minutes of accumulated time pass since the start of the operation or ending the defrosting.Conditions for Canceling DefrostThe judgment must be made with heat exchanger temperature. (4°C~12°C)
Frequency
Compressor
Four way valve
Fan
Electronic expansionvalve opening
ON
OFF
ON
OFF
ON
OFF
0Hz
5sec.
450pps450pps450ppsInitial opening
PI control
5sec.
45sec.60sec. 460 sec.
120sec.
(R2832)
Function and Control 35
Control Specification Si06-313
3.12 Electronic Expansion Valve Control
Outline The following items are included in the electronic expansion valve control.Electronic expansion valve is fully closed1. Electronic expansion valve is fully closed when turning on the power.2. Pressure equalizing controlOpen Control1. Electronic expansion valve control when starting operation2. Control when frequency changed3. Control for defrosting (only for heat pump model)4. Control when a discharge pipe temperature is abnormally high5. Control when the discharge pipe thermistor is disconnectedFeedback Control1. Discharge pipe temperature control
Detail The followings are the examples of control which function in each mode by the electronic expansion valve control.
(R2833)
×
¡
¡
×
¡
¡
×
×
¡
×
×
×
×
¡
×
×
¡
×
×
×
×
×
Fully closed when power is turned ON
Open control when starting
(Control of target discharge pipe temperature)
Pressure equalizing control
Open control when starting
(Control of target discharge pipe temperature)
(Defrost control FD=1)
Pressure equalizing control
Open control when starting
Continue
Pressure equalizing control
Con
trol
whe
n fr
eque
ncy
chan
ged
Con
trol
for
abno
rmal
ly h
igh
disc
harg
e pi
pe te
mpe
ratu
re
When power is turned ON
Cooling operation
Stop
Heating operation
Stop
Heating operation
Control of discharge pipe thermistor disconnection
Stop
Operation pattern
(only for heat pump model)
(only for heat pump model)
¡ : function × : not function
(only for heat pump model)
36 Function and Control
Si06-313 Control Specification
3.12.1 Fully Closing with Power ONInitialize the electronic expansion valve when turning on the power, set the opening position and develop pressure equalizing.
3.12.2 Pressure Equalization ControlWhen the compressor is stopped, open and close the electronic expansion valve and develop pressure equalization.
3.12.3 Opening Limit
Outline Limit a maximum and minimum opening of the electronic expansion valve.
Detail A maximum electronic expansion valve opening : 450 pulsesA minimum electronic expansion valve opening : 54 pulses
The electronic expansion valve is fully closed in the room where cooling is stopped and is opened with fixed opening during defrosting.
3.12.4 Starting Operation ControlControl the electronic expansion valve opening when the system is starting, and prevent the system to be super heated or moistened.
3.12.5 High Temperature of the Discharge PipeWhen the compressor is operating, if the discharge pipe temperature exceeds a certain value, open the electronic expansion valve and remove the refrigerant to the low pressure side and lower discharge temperature.
3.12.6 Disconnection of the Discharge Pipe Thermistor
Outline Detect a disconnected discharge pipe thermistor by comparing the discharge pipe temperature with the condensation temperature. If any is disconnected, open the electronic expansion valve according to the outdoor air temperature and the operating frequency, and operate for a specified time, and then stop.After 3 minutes of waiting, restart the unit and check if any is disconnected. If any is disconnected stop the system after operating for a specified time. If the disconnection is detected 4 times in succession, then the system will be down.
Detail Detect DisconnectionIf a 630-second timer for open control becomes over, and a 9-minute timer for the compressor operation continuation is not counting time, the following adjustment must be made.1. When the operation mode is cooling
When the discharge pipe temperature is lower than the outdoor heat exchanger temperature, the discharge pipe thermistor disconnection must be ascertained.
2. When the operation mode is heating (only for heat pump model)When the discharge pipe temperature is lower than the max temperature of operating room heat exchanger, the discharge pipe thermistor disconnection must be ascertained.
Adjustment when the thermistor is disconnectedWhen compressor stop repeats specified time, the system should be down.
Function and Control 37
Control Specification Si06-313
3.12.7 Control when frequency is changedWhen the target discharge pipe temperature control is active, if the target frequency is changed for a specified value in a certain time period, cancel the target discharge pipe temperature control and change the target opening of the electronic expansion valve according to the shift.
3.12.8 Target Discharge Pipe Temperature ControlObtain the target discharge pipe temperature from the indoor and outdoor heat exchanger temperature, and adjust the electronic expansion valve opening so that the actual discharge pipe temperature become close to that temperature. (Indirect SH control using the discharge pipe temperature)
Determine a correction value of the electronic expansion valve compensation and drive it according to the deflection of the target discharge temperature and actual discharge temperature, and the discharge temperature variation by the 20 sec.
38 Function and Control
Si06-313 Control Specification
3.13 Malfunctions3.13.1 Sensor Malfunction Detection
Sensor malfunction may occur either in the thermistor or current transformer (CT) system.Relating to Thermistor Malfunction1. Outdoor heat exchanger thermistor2. Discharge pipe thermistor3. Fin thermistor4. Outside air thermistorRelating to CT MalfunctionWhen the output frequency is more than 55 Hz and the input current is less than 1.25A, carry out abnormal adjustment.
3.13.2 Detection of Overload and Over Current
Outline In order to protect the inverter, detect an excessive output current, and for protecting compressor, monitor the OL operation.
Detail If the OL (compressor head) temperature exceeds 120~130°C (depending on the model), the compressor gets interrupted.If the inverter current exceeds 30 A, the compressor gets interrupted too.
3.13.3 Insufficient Gas Control
Outline If a power consumption is below the specified value in which the frequency is higher than the specified frequency, it must be regarded as gas insufficient.In addition to such conventional function, if the discharge temperature is higher than the target discharge pipe temperature, and the electronic expansion valve is fully open (450 pulses) more than the specified time, it is considered as an insufficient gas.
With the conventional function, a power consumption is weak comparing with that in the normal operation when gas is insufficient, and gas insufficiency is detected by checking a power consumption.
When operating with insufficient gas, although the rise of discharge pipe temperature is great and the electronic expansion valve is open, it is presumed as an insufficient gas if the discharge pipe temperature is higher than the target discharge pipe temperature.
Detail Judgment by Input CurrentWhen an output frequency is exceeds 55 Hz and the input current is less than specified value, the adjustment is made for insufficient gas.Judgment by Discharge Pipe TemperatureWhen discharge pipe temperature is 20°C higher than target value and the electronic expansion value opening is 450 plus (max.), the adjustment is made for insufficient gas.
Frequency
Pow
er c
onsu
mpt
ion
Insufficient gas zone
55 Hz(R2834)
Gas insufficientzone
(R1391)
Function and Control 39
Control Specification Si06-313
3.14 Forced Operation Mode
Outline Forced operating mode includes only forced cooling.
Detail Forced Cooling
3.15 Additional Function3.15.1 Powerful Operation Mode
Compressor operating frequency is increased to P1 Max. (Max. Hz of operating room) and outdoor unit airflow rate is increased.
3.15.2 Voltage Detection Function Power supply voltage is detected each time equipment operation starts.
Item Forced Cooling
Forced operation allowing conditions
1) The outdoor unit is not abnormal and not in the 3-minute stand-by mode.
2) The operating mode of the outdoor unit is the stop mode.
3) The forced operation is ON. The forced operation is allowed when the above “and” conditions are met.
Starting/adjustment If the forced operation switch is pressed as the above conditions are met.
1) Command frequency
66 Hz
2) Electronic expansion valve opening
Depending on the capacity of the indoor unit.
3) Outdoor unit adjustment
Compressor is in operation
4) Indoor unit adjustment
Transmit the command of forced draft to the indoor unit.
End 1) When the forced operation switch is pressed again.
2) The operation is to end automatically after 15 min.
Others The protect functions are prior to all others in the forced operation.
40 Function and Control
Si06-313
System Configuration 41
Part 5Part 5Part 5Part 5System ConfigurationSystem ConfigurationSystem ConfigurationSystem Configuration
1. System Configuration............................................................................422. Instruction..............................................................................................43
2.1 Safety Precautions .................................................................................432.2 Names of Parts.......................................................................................452.3 Preparation before Operation.................................................................482.4 AUTO·DRY·COOL·HEAT·FAN Operation ..............................................512.5 Adjusting the Air Flow Direction .............................................................532.6 POWERFUL Operation ..........................................................................552.7 OUTDOOR UNIT SILENT Operation .....................................................562.8 HOME LEAVE Operation .......................................................................572.9 TIMER Operation ...................................................................................592.10 Care and Cleaning .................................................................................612.11 Troubleshooting......................................................................................64
System Configuration Si06-313
1. System ConfigurationAfter the installation and test operation of the room air conditioner have been completed, it should be operated and handled as described below. Every user would like to know the correct method of operation of the room air conditioner, to check if it is capable of cooling (or heating) well, and to know a clever method of using it.In order to meet this expectation of the users, giving sufficient explanations taking enough time can be said to reduce about 80% of the requests for servicing. However good the installation work is and however good the functions are, the customer may blame either the room air conditioner or its installation work because of improper handling. The installation work and handing over of the unit can only be considered to have been completed when its handling has been explained to the user without using technical terms but giving full knowledge of the equipment.
42 System Configuration
Si06-313 Instruction
2. Instruction2.1 Safety Precautions
2
Safety precautions• Keep this manual where the operator can easily find them.• Read this manual attentively before starting up the unit.• For safety reason the operator must read the following cautions carefully.• This manual classifies precautions into WARNINGS and CAUTIONS. Be sure to follow all precautions below: they are
all important for ensuring safety.
WARNING• In order to avoid fire, explosion or injury, do not operate the unit when harmful, among which flammable or
corrosive gases, are detected near the unit.• It is not good for health to expose your body to the air flow for a long time.• Do not put a finger, a rod or other objects into the air outlet or inlet. As the fan is rotating at a high speed, it will
cause injury.• Do not attempt to repair, relocate, modify or reinstall the air conditioner by yourself. Incorrect work will cause electric
shocks, fire etc. For repairs and reinstallation, consult your Daikin dealer for advice and information.
• The refrigerant used in the air conditioner is safe. Although leaks should not occur, if for some reason any refrigerant happens to leak into the room, make sure it does not come in contact with any flame as of gas heaters, kerosene heaters or gas range.
• If the air conditioner is not cooling (heating) properly, the refrigerant may be leaking, so call your dealer.When carrying out repairs accompanying adding refrigerant, check the content of the repairs with our service staff.
• Do not attempt to install the air conditioner by your self. Incorrect work will result in water leakage, electric shocks or fire. For installation, consult the dealer or a qualified technician.
• In order to avoid electric shock, fire or injury, if you detect any abnormally such as smell of fire, stop the operation and turn off the breaker. And call your dealer for instructions.
CAUTION• The air conditioner must be earthed. Incomplete earthing may result in electric shocks. Do not connect the
earth line to a gas pipe, water pipe, lightening rod, or a telephone earth line.
• In order to avoid any quality deterioration, do not use the unit for cooling precision instruments, food, plants, animals or works of art.
• Never expose little children, plants or animals directly to the air flow.• Do not place appliances which produce open fire in places exposed to the air flow from the unit or under the
indoor unit. It may cause incomplete combustion or deformation of the unit due to the heat.• Do not block air inlets nor outlets. Impaired air flow may result in insufficient performance or trouble.
WARNINGIf you do not follow these instructions exactly, the unit may cause property damage, personal injury or loss of life.
CAUTIONIf you do not follow these instructions exactly, the unit may cause minor or moderate property damage or personal injury.
Never do. Be sure to follow the instructions.
Be sure to earth the air conditioner.Never cause the air conditioner (including the remote controller) to get wet.
Never touch the air conditioner (including the remote controller) with a wet hand.
System Configuration 43
Instruction Si06-313
3
• Do not stand or sit on the outdoor unit. Do not place any object on the unit to avoid injury, do not remove the fan guard.• Do not place anything under the indoor or outdoor unit that must be kept away from moisture. In certain conditions,
moisture in the air may condense and drip.• After a long use, check the unit stand and fittings for damage.• Do not touch the air inlet and alminum fins of outdoor unit. It may cause injury.• The appliance is not intended for use by young children or infirm persons without supervision.• Young children should be supervised to ensure that they do not play with the appliance.
• To avoid oxygen deficiency, ventilate the room sufficiently if equipment with burner is used together with the air conditioner.
• Before cleaning, be sure to stop the operation, turn the breaker off or pull out the supply cord.• Do not connect the air conditioner to a power supply different from the one as specified. It may cause trou-
ble or fire.• Depending on the environment, an earth leakage breaker must be installed. Lack of an earth leakage breaker may
result in electric shocks.• Arrange the drain hose to ensure smooth drainage. Incomplete draining may cause wetting of the building, furniture
etc.
• Do not operate the air conditioner with wet hands.
• Do not wash the indoor unit with excessive water, only use a slightly wet cloth.• Do not place things such as vessels containing water or anything else on top of the unit. Water may pene-
trate into the unit and degrade electrical insulations, resulting in an electric shock.
To install the air conditioner in the following types of environments, consult the dealer.• Places with an oily ambient or where steam or soot occurs.• Salty environment such as coastal areas.• Places where sulfide gas occurs such as hot springs.• Places where snow may block the outdoor unit.
The drain from the outdoor unit must be discharged to a place of good drainage.
For installation, choose a place as described below.• A place solid enough to bear the weight of the unit which does not amplify the operation noise or vibration.• A place from where the air discharged from the outdoor unit or the operation noise will not annoy
your neighbours.
• For power supply, be sure to use a separate power circuit dedicated to the air conditioner.
• Relocating the air conditioner requires specialized knowledge and skills. Please consult the dealer if reloca-tion is necessary for moving or remodeling
Installation site
Consider nuisance to your neighbours from noises
Electrical work
System relocation
44 System Configuration
Si06-313 Instruction
2.2 Names of Parts
4
Names of parts
Indoor Unit
Opening the front grilleHow to open the grille: (page 22)
CAUTIONBefore opening the front grille, be sure to stop the operation and turn the breaker OFF.Do not touch the metal parts on the inside of the indoor unit, as it may result in injury.
ONOFF
1 2
45
2
6
7
8 3
9 11
10
14
15
12 13
Air outlet selection switch
This setting blows air from upper outlet only.•
This setting automatically decides a blowpattern depending on mode and conditions.
•
• The unit is shipped from the factory with this setting.
• This setting is recommended.
Air outlet selection
System Configuration 45
Instruction Si06-313
5
Outdoor Unit
Indoor Unit1. Photocatalytic deodorizing filter and
Air purifying filter:• These filters are attached to the inside of the air
filters.
2. Air outlet
3. Display
4. Front grille
5. Louvres (vertical blades): (page 12.)• The louvres are inside of the air outlet.
6. Air inlet
7. Air filter
8. Flap (horizontal blade): (page 12.)
9. Operation lamp (green)
10. TIMER lamp (yellow): (page 18.)
11. HOME LEAVE lamp (red): (page 16.)
12. Indoor Unit ON/OFF switch:• Push this switch once to start operation.
Push once again to stop it.
• The operation mode refers to the following table.
• This switch is useful when the remote controller is missing.
13. Signal receiver:• Signals are received from the remote controller .• When the unit receives a signal, you will hear a
short beep.• Operation start .............beep-beep• Settings changed..........beep• Operation stop ..............beeeeep
14. Air outlet selection switch
15. Room temperature sensor:• It senses the air temperature around the unit.
Outdoor Unit
16. Air inlet: (Back and side)
17. Refrigerant piping and inter-unit cable
18. Drain hose
19. Earth terminal:• It is inside of this cover.
20. Air outlet
Appearance of the outdoor unit may differ from some models.
17
18
1920
16
ModeTemperature
settingAir flow
rateFVKS COOL 22°C AUTOFVXS AUTO 25°C AUTO
46 System Configuration
Si06-313 Instruction
6
Remote Controller
1. Signal transmitter:• It sends signals to the indoor unit.
2. Display:• It displays the current settings.
(In this illustration, each section is shown with all its displays ON for the purpose of explanation.)
3. HOME LEAVE button: for HOME LEAVE operation (page 16.)
4. POWERFUL button: for POWERFUL operation (page 14.)
5. TEMPERATURE adjustment buttons:• It changes the temperature setting.
6. ON/OFF button:• Press this button once to start operation.
Press once again to stop it.
7. MODE selector button:
• It selects the operation mode.(AUTO/DRY/COOL/HEAT/FAN) (page 10.)
8. SILENT button: for OUTDOOR UNIT SILENT operation (page 15.)
9. FAN setting button:• It selects the air flow rate setting.
10. SWING button: (page 12.)
11. ON TIMER button: (page 19.)
12. TIMER Setting button:• It changes the time setting.
13. OFF TIMER button: (page 18.)
14. TIMER CANCEL button:• It cancels the timer setting.
15. CLOCK button: (page 9.)
C
O N
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FAN SWINGSILENT
ON CANCEL
OFF
1
2
5
6
910
14
15
11
12
13
< ARC433A5, A6 >
3
4
7
8
System Configuration 47
Instruction Si06-313
2.3 Preparation before Operation
7
Preparation Before Operation
To set the batteries
1. Press with a finger and slide the front cover to take it off.
2. Set two dry batteries (AAA).
3. Set the front cover as before.
ATTENTION About batteries
• When replacing the batteries, use batteries of the same type, and replace the two old batteries together.
• When the system is not used for a long time, take the batteries out.• We recommend replacing once a year, although if the remote controller display begins to fade or if
reception deteriorates, please replace with new alkali batteries. Using manganese batteries reduces the lifespan.
• The attached batteries are provided for the initial use of the system.The usable period of the batteries may be short depending on the manufactured date of the air conditioner.
+–
–+
2
3
1
Position + and – correctly!
48 System Configuration
Si06-313 Instruction
8
Preparation Before Operation
To operate the remote controller• To use the remote controller, aim the transmitter
at the indoor unit. If there is anything to block signals between the unit and the remote control-ler, such as a curtain, the unit will not operate.
• Do not drop the remote controller. Do not get it wet.• The maximum distance for communication is
about 7 m.
To fix the remote controller holder on the wall
1. Choose a place from where the sig-nals reach the unit.
2. Fix the holder to a wall, a pillar, etc. with the screws supplied with the holder.
3. Place the remote controller in the remote controller holder.
ATTENTION About remote controller
• Never expose the remote controller to direct sunlight.• Dust on the signal transmitter or receiver will reduce the sensitivity. Wipe off dust with soft cloth.• Signal communication may be disabled if an electronic-starter-type fluorescent lamp (such as
inverter-type lamps) is in the room. Consult the shop if that is the case.• If the remote controller signals happen to operate another appliance, move that appliance to some-
where else, or consult the shop.
Receiver
Remote controller holder
Set.
To remove, pull it upwards.
System Configuration 49
Instruction Si06-313
9
To set the clock
1. Press “CLOCK button”.
is displayed.
blinks.
2. Press “TIMER setting button” to set the clock to the present time.Holding down “ ” or “ ” button rapidly increases or decreases the time display.
3. Press “CLOCK button”.
blinks.
Turn the breaker ON• Turning ON the breaker opens the flap,
then closes it again. (This is a normal pro-cedure.)
NOTE Tips for saving energy
• Be careful not to cool (heat) the room too much.Keeping the temperature setting at a moderate level helps save energy.
• Cover windows with a blind or a curtain.Blocking sunlight and air from outdoors increases the cooling (heating) effect.
• Clogged air filters cause inefficient operation and waste energy. Clean them once in about every two weeks.
Please note• The air conditioner always consumes 15-35 watts of electricity even while it is not operating.• If you are not going to use the air conditioner for a long period, for example in spring or autumn, turn the breaker OFF.• Use the air conditioner in the following conditions.
• Operation outside this humidity or temperature range may cause a safety device to disable the system.
C
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FANSILENT
ON CANCEL
OFF
SWING
1.3
2
Recommended temperature setting
For cooling:26°C – 28°°°°CFor heating:20°C – 24°C
Mode Operating conditions If operation is continued out of this range
COOL Outdoor temperature:⟨3/4MK(X)⟩ –10 to 46 °C⟨RK(X)⟩ –10 to 46 °C
Indoor temperature: 18 to 32 °CIndoor humidity: 80% max.
• A safety device may work to stop the operation.(In multi system, it may work to stop the operation of the out-door unit only.)
• Condensation may occur on the indoor unit and drip.
HEAT Outdoor temperature:⟨3/4MX⟩ –15 to 16 °C⟨RX⟩ –15 to 21 °C
Indoor temperature: 10 to 30 °C
• A safety device may work to stop the operation.
DRY Outdoor temperature:⟨3/4MK(X)⟩ –10 to 46 °C⟨RK(X)⟩ –10 to 46 °C
Indoor temperature: 18 to 32 °CIndoor humidity: 80% max.
• A safety device may work to stop the operation.• Condensation may occur on the indoor unit and drip.
50 System Configuration
Si06-313 Instruction
2.4 AUTO·DRY·COOL·HEAT·FAN Operation
10
AUTO · DRY · COOL · HEAT · FAN OperationThe air conditioner operates with the operation mode of your choice.From the next time on, the air conditioner will operate with the same operation mode.
To start operation1. Press “MODE selector button”
and select a operation mode.• Each pressing of the button advances the
mode setting in sequence.
: AUTO
: DRY
: COOL
: HEAT
: FAN
2. Press “ON/OFF button” .• The OPERATION lamp lights up.
To stop operation3. Press “ON/OFF button” again.
• Then OPERATION lamp goes off.
To change the temperature setting4. Press “TEMPERATURE adjustment button”
DRY or FAN mode AUTO or COOL or HEAT mode
The temperature setting is not variable.
Press “ ” to raise the temperature and press
“ ” to lower the temperature.
Set to the temperature you like.
C
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FAN SWINGSILENT
ON CANCEL
OFF
2, 31
4
5
<FVKS>
<FVXS>
ONOFF
C
System Configuration 51
Instruction Si06-313
11
To change the air flow rate setting
5. Press “FAN setting button”.
• Indoor unit quiet operation
When the air flow is set to “ ”, the noise from the indoor unit will become quieter. Use this when making the noise quieter.
The unit might lose power when the fan strength is set to a weak level.
To change the air flow direction(page 12.)
NOTE
DRY mode AUTO or COOL or HEAT or FAN mode
The air flow rate setting is not variable.
Five levels of air flow rate setting from “ ” to “ ”
plus “ ” “ ” are available.
Note on HEAT operation• Since this air conditioner heats the room by taking heat from outdoor air to indoors, the heating
capacity becomes smaller in lower outdoor temperatures. If the heating effect is insufficient, it is rec-ommended to use another heating appliance in combination with the air conditioner.
• The heat pump system heats the room by circulating hot air around all parts of the room. After the start of heating operation, it takes some time before the room gets warmer.
• In heating operation, frost may occur on the outdoor unit and lower the heating capacity. In that case, the system switches into defrosting operation to take away the frost.
• During defrosting operation, hot air does not flow out of indoor unit.• At the start of heater operation, so that air does not blow directly on an individual, air blows in an
upward direction. After the blowing air gets warmer, the air will blow according to memorised air flow direction and rates.
Note on DRY operation• The computer chip works to rid the room of humidity while maintaining the temperature as
much as possible. It automatically controls temperature and fan strength, so manual adjust-ment of these functions is unavailable.
Note on AUTO operation• In AUTO operation, the system selects a temperature setting and an appropriate operation mode
(COOL or HEAT) based on the room temperature at the start of the operation.• The system automatically reselects setting at a regular interval to bring the room temperature to user-
setting level.• If you do not like AUTO operation, you can manually select the operation mode and setting
you like. Note on air flow rate setting
• At smaller air flow rates, the cooling (heating) effect is also smaller.
52 System Configuration
Si06-313 Instruction
2.5 Adjusting the Air Flow Direction
12
Adjusting the Air Flow DirectionYou can adjust the air flow direction to increase your com-fort.
To adjust the horizontal blade (flap)
1. Press “SWING button”.
The display will light up and the flaps will begin to swing.
2. When the flaps have reached the desired position, press “SWING button” once more.The display will go blank.The flaps will stop moving.
To adjust the vertical blades (louvres)
Hold the knob and move the louvre.(You will find a knob on the left-side and the right-side blades.)
Notes on flap and louvers angle• Unless [ SWING ] is selected, you should set the flap at
a near-horizontal angle in HEAT mode and at a upward position in COOL or DRY mode to obtain the best performance.
ATTENTION• When adjusting the flap by hand, turn off the unit, and
use the remote controller to restart the unit.• Be careful when adjusting the louvres. Inside the air
outlet, a fan is rotating at a high speed.
C
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FAN SWINGSILENT
ON CANCEL
OFF
O N
1, 2
COOL/DRY
HEAT
System Configuration 53
Instruction Si06-313
13
Air flow selection• Make air flow selection according to what suits you.
When setting the air flow selection switch to .• Air conditioner automatically decides the appropriate blowing pattern depending on the operating
mode/situation.
• During Dry mode, so that cold air does not come into direct contact with people, air is blown upper air outlet.
When setting the air outlet selection switch to .• Regardless of the operating mode or situation, air blows from the upper air outlet.• Use this switch when you do not want air coming out of the lower air outlet. (While sleeping etc..)
CAUTION
Operating mode Situation Blowing pattern
COOL mode
• When the room has become fully cool, or when one hour has passed since turning on the air conditioner.
• So that air does not come into direct contact with people, air is blown upper air outlet, room temperature is equlised.
• At start of operation or other times when the room is not fully cooled.
• Air is blown from the upper and lower air outlets for high speed cooling dur-ing COOL mode, and for filling the room with warm air during HEAT mode.
HEAT mode
• At times other than below.(Normal time.)
• At start or when air temperature is low.
• So that air does not come into direct contact with people. Air is blown upper air outlet.
• Do not try to adjust the flap by hand.• When adjusting by hand, the mechanism may not operate properly or condensation may drip from
air outlets.
54 System Configuration
Si06-313 Instruction
2.6 POWERFUL Operation
14
POWERFUL OperationPOWERFUL operation quickly maximizes the cooling (heating) effect in any operation mode. You can get the maximum capacity .
To start POWERFUL operation
1. Press “POWERFUL button”.• POWERFUL operation ends in 20 minutes.
Then the system automatically operates again with the settings which were used before POWERFUL operation.
• When using POWERFUL operation, there are some functions which are not available.
To cancel POWERFUL operation
2. Press “POWERFUL button” again.
NOTE Notes on POWERFUL operation
• In COOL and HEAT modeTo maximize the cooling (heating) effect, the capacity of outdoor unit must be increased and the air flow rate be fixed to the maximum setting.The temperature and air flow settings are not variable.
• In DRY modeThe temperature setting is lowered by 2.5°C and the air flow rate is slightly increased.
• In FAN modeThe air flow rate is fixed to the maximum setting.
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FAN SWINGSILENT
ON CANCEL
OFF
O N
1, 2
System Configuration 55
Si06-313 Instruction
2.8 HOME LEAVE Operation
16
HOME LEAVE OperationHOME LEAVE operation is a function which allows you to record your preferred temperature and air flow rate settings.
To start HOME LEAVE operation
1. Press “HOME LEAVE button” .• The HOME LEAVE lamp lights up.
To cancel HOME LEAVE operation2. Press “HOME LEAVE button” again.
• The HOME LEAVE lamp goes off.
Before using HOME LEAVE operation. To set the temperature and air flow rate for HOME LEAVE operation
When using HOME LEAVE operation for the first time, please set the temperature and air flow rate for HOME LEAVE operation. Record your preferred temperature and air flow rate.
1. Press “HOME LEAVE button”. Make sure “ ”is displayed in the remote control-ler display.
2. Adjust the set temperature with “ ” or “ ” as you like.3. Adjust the air flow rate with “FAN” setting button as you like.
Home leave operation will run with these settings the next time you use the unit. To change the recorded information, repeat steps 1 – 3.
C
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FAN SWINGSILENT
ON CANCEL
OFF
1, 2ON
OFF
Initial setting Selectable range
temperature Air flow rate temperature Air flow rate
Cooling 25°C AUTO 18-32°C 5 step, AUTO and SILENT
Heating 25°C AUTO 10-30°C 5 step, AUTO and SILENT
System Configuration 57
Instruction Si06-313
17
What’s the HOME LEAVE operationIs there a set temperature and air flow rate which is most comfortable, a set temperature and air flow rate which you use the most? HOME LEAVE operation is a function that allows you to record your favorite set tem-perature and air flow rate. You can start your favorite operation mode simply by pressing the HOME LEAVE button on the remote controller. This function is convenient in the following situations.
Useful in these cases.1.Use as an energy-saving mode
Set the temperature 2-3° higher (cooling) or lower (heating) than normal. Setting the fan strength to the lowest setting allows the unit to be used in energy-saving mode. Also convenient for use while you are out or sleeping.
• Every day before you leave the house...
• Before bed...
2.Use as a favorite modeOnce you record the temperature and air flow rate settings you most often use, you can retrieve them by press-ing HOME LEAVE button. You do not have to go through troublesome remote control operations.
NOTE
When you go out, push the “HOME LEAVE Operation” button, and the air conditioner will adjust capacity to reach the preset temperature for HOME LEAVE Operation.
When you return, you will be wel-comed by a comfortably air condi-tioned room.
Push the “HOME LEAVE Operation” button again, and the air conditioner will adjust capacity to the set tem-perature for normal operation.
Set the unit to HOME LEAVE Opera-tion before leaving the living room when going to bed.
The unit will maintain the temper-ature in the room at a comfortable level while you sleep.
When you enter the living room in the morn-ing, the temperature will be just right. Disengaging HOME LEAVE Opera-tion will return the temperature to that set for normal operation. Even the coldest winters will pose no problem!
• Once the temperature and air flow rate for HOME LEAVE operation are set, those settings will be used whenever HOME LEAVE operation is used in the future. To change these settings, please refer to the “Before using HOME LEAVE operation” section above.
• HOME LEAVE operation is only available in COOL and HEAT mode. Cannot be used in AUTO, DRY, and FAN mode.
• HOME LEAVE operation runs in accordance with the previous operation mode(COOL or HEAT) before using HOME LEAVE operation.
• HOME LEAVE operation and POWERFUL operation cannot be used at the same time. Last button that was pressed has priority.
• The operation mode cannot be changed while HOME LEAVE operation is being used.• When operation is shut off during HOME LEAVE operation, using the remote controller or the indoor
unit ON/OFF switch, “ ”will remain on the remote controller display.
58 System Configuration
Si06-313 Instruction
2.9 TIMER Operation
18
TIMER OperationTimer functions are useful for automatically switching the air conditioner on or off at night or in the morning. You can also use OFF TIMER and ON TIMER in combination.
To use OFF TIMER opera-tion• Check that the clock is correct.
If not, set the clock to the present time. (page 9.)
1. Press “OFF TIMER button”.
is displayed.
blinks.
2. Press “TIMER Setting button” until the time setting reaches the point you like.• Every pressing of either button increases
or decreases the time setting by 10 min-utes. Holding down either button changes the setting rapidly.
3. Press “OFF TIMER button” again.• The TIMER lamp lights up.
To cancel the OFF TIMER Operation4. Press “CANCEL button”.
• The TIMER lamp goes off.
Notes• When TIMER is set, the present time is not displayed.• Once you set ON, OFF TIMER, the time setting is kept in the memory. (The memory is canceled when
remote controller batteries are replaced.)• When operating the unit via the ON/OFF Timer, the actual length of operation may vary from the time
entered by the user. (Maximum approx. 10 minutes)
NIGHT SET MODEWhen the OFF TIMER is set, the air conditioner automatically adjusts the temperature setting (0.5°C up in COOL, 2.0°C down in HEAT) to prevent excessive cooling (heating) for your pleasant sleep.
C
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FAN SWINGSILENT
ON CANCEL
OFF
4
21.3
ONOFF
System Configuration 59
Instruction Si06-313
19
To use ON TIMER operation• Check that the clock is correct. If not, set
the clock to the present time (page 9.).
1. Press “ON TIMER button”.
is displayed.
blinks.
2. Press “TIMER Setting button” until the time setting reaches the point you like.• Every pressing of either button
increases or decreases the time setting by 10 minutes. Holding down either but-ton changes the setting rapidly.
3. Press “ON TIMER button” again.• The TIMER lamp lights up.
To cancel ON TIMER operation4. Press “CANCEL button”.
• The TIMER lamp goes off.
To combine ON TIMER and OFF TIMER• A sample setting for combining the two timers is shown below.
ATTENTION In the following cases, set the timer again.
• After a breaker has turned OFF.• After a power failure.• After replacing batteries in the remote controller.
C
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FAN SWINGSILENT
ON CANCEL
OFF2
1.34
ONOFF
Dis
play
(Example)Present time: 11:00 PM (The unit operating)OFF TIMER at 0:00 a.m.ON TIMER at 7:00 a.m. Combined
60 System Configuration
Si06-313 Instruction
2.10 Care and Cleaning
22
Care and CleaningCAUTION
Indoor unit, Outdoor unit and Remote controller
1. Wipe them with dry soft cloth.
Front grille1. Open the front grille.
• Press the two places on the left and right of
the front grille.
2. Remove the front grille.• Remove the chain.• Allowing the grille to fall forward will enable you to
remove it.
3. Clean the front grille• Wipe softly with a damp cloth.• Only neutral detergent may be used.• In case of washing the grille with water, dry it with
cloth, dry it up in the shade after washing.
4. Attach the front grille.• Insert the front grille into the grooves of the unit
(3 places).• Attach the chain to the right, inner-side of the front
grille.• Close the grille slowly.
CAUTION
Units
• Hold the front grille firmly so that it does not fall.• Do not touch the metal parts on the inside of the indoor unit, as it may result in injury.• When removing or attaching the front grille, use a robust and stable stool and watch your steps carefully. • When removing or attaching the front grille, support the grille securely with hand to prevent it from falling.• For cleaning, do not use hot water above 40 °C, benzine, gasoline, thinner, nor other volatile oils, pol-
ishing compound, scrubbing brushes, nor other hand stuff.• After cleaning, make sure that the front grille is securely fixed.
Before cleaning, be sure to stop the operation and turn the breaker OFF.
P U S H
Chain
Place front grille in grooves.
System Configuration 61
Instruction Si06-313
23
1. Open the front grille. (page 22)
2. Remove the air filter.• Press the claws on the right and left of the air filter down
slightly, then pull upward.
3. Take off the air purifying filter, Photocatalytic deodorizing filter.• Hold the tabs of the frame, and remove the claws in 4 places.
4. Clean or replace each filter.See below.
5. Set the air filter, air purifying filter and photocatalytic deodorizing filter as they were and close the front grille.• Operation without air filters may result in troubles
as dust will accumulate inside the indoor unit.
Air Filter1. Wash the air filters with water or clean them with
vacuum cleaner.• If the dust does not come off easily, wash them with neutral detergent
thinned with lukewarm water, then dry them up in the shade.• It is recommended to clean the air filters every two weeks.
Air Purifying Filter (green)(Replace approximately once every 3 months.)1. Detach the filter element and attach a new one.
• Insert with the green side up.• It is recommended to replace the air purifying filter every three months.
Photocatalytic Deodorizing Filter (gray)[ Maintenance ]
1. Dry the photocatalytic deodorizing filter in the sun.• After removing the dust with a vacuum cleaner, place the filter in the sun for approximately 6 hours.
By drying the photocatalytic deodorizing filter in the sun, its deodorizing and antibacterial capabilities are regenerated.
• Because the filter material is paper, it can not be cleaned with water.• It is recommended dry the filter once every 6 months.
[ Replacement]1. Detach the filter element and attach a new one.
Filters
Air filter
Air purifying filter or photocatalytic deodorizing filter
62 System Configuration
Si06-313 Instruction
24
Check
Before a long idle period
1. Operate the “fan only” for several hours on a fine day to dry out the inside.• Press “MODE” button and select “fan”operation.
• Press “ON/OFF” button and start operation.
2. Clean the air filters and set them again.
3. Take out batteries from the remote controller.
4. Turn OFF the breaker for the room air conditioner.
NOTE
Check that the base, stand and other fittings of the outdoor unit are not decayed or corroded.
Check that nothing blocks the air inlets and the outlets of the indoor unit and the outdoor unit.
Check that the earth wire is not disconnected or broken.
Check that the drain comes smoothly out of the drain hose during COOL or DRY operation.• If no drain water is seen, water may be leaking from the indoor unit. Stop operation and consult the ser-
vice shop if this is the case.
• Operation with dusty air filters lowers the cooling (heating) capacity and wastes energy.Air is also prevented from flowing smoothly through the unit creating a noise.
• Operation with dirty filters :(1) cannot deodorize the air. (2) cannot clean the air.(3) results in poor heating or cooling. (4) may cause odour.
• The air purifying filter and Photocatalytic deodorizing filter cannot be reused, even if washed.• In principle, there is no need to replace the photocatalytic deodorizing filter. Remove the dust peri-
odically with a vacuum cleaner. However, it is recommended to replace the filter in the following cases. (1) The paper material is torn or broken during cleaning. (2) The filter has become extremely dirty after long use.
• To order air purifying filter or Photocatalytic deodorizing filter, contact to the service shop where you bought the air conditioner.
• Dispose of old air filters as non-burnable waste and Photocatalytic deodorizing filters as burnable waste.
Item Part No.
Photocatalytic deodorizing filter (with frame) KAZ917B41
Photocatalytic deodorizing filter (without frame) KAZ917B42
Air purifying filter (with frame) KAF925B41
Air purifying filter (without frame) KAF925B42
System Configuration 63
Instruction Si06-313
2.11 Troubleshooting
25
Trouble Shooting
The following cases are not air conditioner troubles but have some reasons. You may just continue using it.
These cases are not troubles.
Case ExplanationOperation does not start soon.• When ON/OFF button was
pressed soon after operation was stopped.
• When the mode was reselected.
• This is to protect the air conditioner.You should wait for about 3 minutes.
Hot air does not flow out soon after the start of heating operation.
• The air conditioner is warming up. You should wait for 1 to 4 minutes.(The system is designed to start discharging air only after it has reached a certain temperature.)
The heating operation stops suddenly and a flowing sound is heard.
• The system is taking away the frost on the outdoor unit.You should wait for about 3 to 8 minutes.
The outdoor unit emits water or steam.
In HEAT mode• The frost on the outdoor unit melts into water or steam
when the air conditioner is in defrost operation. In COOL or DRY mode
• Moisture in the air condenses into water on the cool surface of outdoor unit piping and drips.
Mists come out of the indoor unit.
This happens when the air in the room is cooled into mist by the cold air flow during cooling operation.
The indoor unit gives out odour. This happens when smells of the room, furniture, or cigarettes are absorbed into the unit and discharged with the air flow.(If this happens, we recommend you to have the indoor unit washed by a technician. Consult the service shop where you bought the air conditioner.)
The outdoor fan rotates while the air conditioner is not in operation.
After operation is stopped:• The outdoor fan continues rotating for another 60
seconds for system protection. While the air conditioner is not in operation:
• When the outdoor temperature is very high, the out door fan starts rotating for system protection.
The operation stopped suddenly.(OPERATION lamp is on)
For system protection, the air conditioner may stop operating on a sudden large voltage fluctuation.It automatically resumes operation in about 3 minutes.
64 System Configuration
Si06-313 Instruction
Please check again before calling a repair person.
Check again.
Case CheckThe air conditioner does not operate.(OPERATION lamp is off)
2Hasn’t a breaker turned OFF or a fuse blown?2Isn’t it a power failure?2Are batteries set in the remote controller?2Is the timer setting correct?
Cooling (Heating) effect is poor. 2Are the air filters clean?2Is there anything to block the air inlet or the outlet of the
indoor and the outdoor units?2Is the temperature setting appropriate?2Are the windows and doors closed?2Are the air flow rate and the air direction set appropriately?
Operation stops suddenly.(OPERATION lamp flashes.)
2Are the air filters clean?2Is there anything to block the air inlet or the outlet of the
indoor and the outdoor units?Clean the air filters or take all obstacles away and turn the breaker OFF. Then turn it ON again and try operating the air conditioner with the remote controller. If the lamp still flashes, call the service shop where you bought the air conditioner.
An abnormal functioninghappens during operation.
2The air conditioner may malfunction with lightning or radio waves. Turn the breaker OFF, turn it ON again and try operating the air conditioner with the remote controller.
System Configuration 65
Instruction Si06-313
27
WARNINGWhen an abnormality (such as a burning smell) occurs, stop operation and turn the breaker OFF.
Continued operation in an abnormal condition may result in troubles, electric shocks or fire.Consult the service shop where you bought the air conditioner.
Do not attempt to repair or modify the air conditioner by yourself.Incorrect work may result in electric shocks or fire.Consult the service shop where you bought the air conditioner.
If one of the following symptoms takes place, call the service shop immediately.
Disposal requirementsDismantling of the unit, treatment of the refrigerant, oil and eventual other parts, should be done in accordance with the relevant local and national regulations.
In certain operating conditions, the inside of the air conditioner may get foul after several seasons of use, resulting in poor performance. It is recommended to have periodical maintenance by a specialist aside from regular cleaning by the user. For specialist maintenance, contact the service shop where you bought the air conditioner.The maintenance cost must be born by the user.
Call the service shop immediately.
After a power failureThe air conditioner automatically resumes operation in about 3 minutes. You should just wait for a while.
LightningIf lightening may strike the neighbouring area, stop operation and turn the breaker OFF for system protection.
We recommend periodical maintenance
The power cord is abnormally hot or damaged. An abnormal sound is heard during operation. The safety breaker, a fuse, or the earth leakage breaker
cuts off the operation frequently. A switch or a button often fails to work properly. There is a burning smell. Water leaks from the indoor unit.
Turn the breaker OFF and call the service shop.
3P098587-1F
66 System Configuration
Si06-313
Service Diagnosis 67
Part 6Part 6Part 6Part 6Service DiagnosisService DiagnosisService DiagnosisService Diagnosis
1. Caution for Diagnosis............................................................................682. Problem Symptoms and Measures .......................................................693. Service Check Function ........................................................................704. Troubleshooting ....................................................................................71
4.1 Error Codes and Description ..................................................................714.2 Indoor Unit PCB Abnormality .................................................................724.3 Freeze-up Protection Control or High Pressure Control.........................734.4 Fan Motor (DC Motor) or Related Abnormality.......................................754.5 Thermistor or Related Abnormality (Indoor Unit)....................................774.6 Shutter Drive Motor / Shutter Limit Switch Abnormality .........................784.7 Signal Transmission Error (between Indoor and Outdoor Units)............794.8 OL Activation (Compressor Overload) ...................................................804.9 Compressor Lock ...................................................................................814.10 DC Fan Lock ..........................................................................................824.11 Input Over Current Detection .................................................................834.12 Four Way Valve Abnormality..................................................................854.13 Discharge Pipe Temperature Control.....................................................874.14 Position Sensor Abnormality ..................................................................884.15 CT or Related Abnormality .....................................................................894.16 Thermistor or Related Abnormality (Outdoor Unit).................................914.17 Electrical Box Temperature Rise............................................................934.18 Radiation Fin Temperature Rise ............................................................954.19 Output Over Current Detection...............................................................974.20 Insufficient Gas.......................................................................................994.21 Low-voltage Detection..........................................................................1014.22 High Pressure Control in Cooling .........................................................102
5. Check ..................................................................................................1045.1 How to Check .......................................................................................104
Caution for Diagnosis Si06-313
1. Caution for DiagnosisThe Operation lamp flashes when any of the following errors is detected.1. When a protection device of the indoor or outdoor unit is activated or when the thermistor
malfunctions, disabling equipment operation.2. When a signal transmission error occurs between the indoor and outdoor units.In either case, conduct the diagnostic procedure described in the following pages.
Location of Operation Lamp
Troubleshooting with the LED Indication
The outdoor unit has one green LED (LED A) on the PCB. The flashing green LED indicates normal condition of microcomputer operation.
Display
Air outlet
Air outlet
Air inlet
OPERATION lamp (green) ON
OFF
(R2664)
Outdoor Unit
68 Service Diagnosis
Si06-313 Problem Symptoms and Measures
2. Problem Symptoms and MeasuresSymptom Check Item Details of Measure Reference
Page
None of the units operates. Check the power supply. Check to make sure that the rated voltage is supplied.
—
Check the type of the indoor units. Check to make sure that the indoor unit type is compatible with the outdoor unit.
—
Check the outdoor air temperature. Heating operation cannot be used when the outdoor air temperature is 24°C or higher (only for heat pump model), and cooling operation cannot be used when the outdoor air temperature is below –5°C (–10°C for Europe).
—
Diagnosis with remote controller indication
— 71
Check the remote controller addresses.
Check to make sure that address settings for the remote controller and indoor unit are correct.
—
Operation sometimes stops.
Check the power supply. A power failure of 2 to 10 cycles can stop air conditioner operation. (Operation lamp OFF)
—
Check the outdoor air temperature. Heating operation cannot be used when the outdoor air temperature is 24°C or higher (only for heat pump model), and cooling operation cannot be used when the outdoor air temperature is below –5°C (–10°C for Europe).
—
Diagnosis with remote controller indication
— 71
Equipment operates but does not cool, or does not heat (only for heat pump model).
Check for wiring and piping errors in the indoor and outdoor units connection wires and pipes.
Conduct the wiring/piping error check described on the product diagnosis nameplate.
—
Check for thermistor detection errors. Check to make sure that the main unit’s thermistor has not dismounted from the pipe holder.
—
Check for faulty operation of the electronic expansion valve.
Set the units to cooling operation, and compare the temperatures of the liquid side connection pipes of the connection section among rooms to check the opening and closing operation of the electronic expansion valves of the individual units.
—
Diagnosis with remote controller indication
— 71
Diagnosis by service port pressure and operating current
Check for insufficient gas. 110
Large operating noise and vibrations
Check the output voltage of the power transistor.
— 111
Check the power transistor. — —
Check the installation condition. Check to make sure that the required spaces for installation (specified in the Technical Guide, etc.) are provided.
—
Service Diagnosis 69
Service Check Function Si06-313
3. Service Check FunctionIn the ARC433A series remote controller, the temperature display sections on the main unit indicate corresponding codes.1. When the timer cancel button is held down for 5 seconds, a “00” indication flashes on the
temperature display section.
2. Press the timer cancel button repeatedly until a continuous beep is produced.The code indication changes in the sequence shown below, and notifies with a long beep.
Note: 1. A short beep and two consecutive beeps indicate non-corresponding codes.2. To cancel the code display, hold the timer cancel button down for 5 seconds. The code
display also cancels itself if the button is not pressed for 1 minute.
No. Code No. Code No. Code
1 00 11 E7 21 UA
2 U4 12 C7 22 A5
3 F3 13 H8 23 J9
4 E6 14 J3 24 E8
5 L5 15 A3 25 P4
6 A6 16 A1 26 L3
7 E5 17 C4 27 L4
8 LC 18 C5 28 H6
9 C9 19 H9 29 H7
10 U0 20 J6 30 U2
< ARC433A5, A6 >
(R3035)
C
O N
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE
TIMER
FAN SWINGSILENT
ON CANCEL
OFF
TIMER CANCEL button
It cancels the timer setting.
70 Service Diagnosis
Si06-313 Troubleshooting
4. Troubleshooting4.1 Error Codes and Description
: Displayed only when system-down occurs.
Code Indication Description ReferencePage
System 00 Normal —
U0 Insufficient gas 99
U2 Low-voltage detection 101
U4 Signal transmission error (between indoor and outdoor units) 79
IndoorUnit
A1 Indoor unit PCB abnormality 72
A5 Freeze-up protection control or high pressure control 73
A6 Fan motor or related abnormality 75
C4 Heat exchanger thermistor abnormality 77
C7 Shutter drive motor / shutter limit switch abnormality 78
C9 Room temperature thermistor abnormality 77
OutdoorUnit
E5 OL activation (compressor overload) 80
E6 Compressor lock 81
E7 DC fan lock 82
E8 Input over current detection 83
EA Four way valve abnormality 85
F3 Discharge pipe temperature control 87
F6 High pressure control in cooling 102
H6 Position sensor abnormality 88
H8 CT or related abnormality 89
H9 Outdoor air thermistor or related abnormality 91
J3 Discharge pipe thermistor or related abnormality 91
J6 Heat exchanger thermistor or related abnormality 91
L3 Electrical box temperature rise 93
L4 Radiation fin temperature rise 95
L5 Output over current detection 97
P4 Radiation fin thermistor or related abnormality 91
Service Diagnosis 71
Troubleshooting Si06-313
4.2 Indoor Unit PCB Abnormality
Remote Controller Display
A1
Method of Malfunction Detection
Evaluation of zero-cross detection of power supply by indoor unit.
Malfunction Decision Conditions
When there is no zero-cross detection in approximately 10 continuous seconds.
Supposed Causes
Faulty indoor unit PCBFaulty connector connection
Troubleshooting
Note: Connector Nos. vary depending on models.
Connector connection check (note).
YES
Is it normal?NO
Correct connections.
Replace PCBs.(R1400)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Model Type Connector No.
Floor Standing Type Control PCB (indoor unit) : S7, S201, S203Power Supply PCB (indoor unit) : S8, S202, S204
72 Service Diagnosis
Si06-313 Troubleshooting
4.3 Freeze-up Protection Control or High Pressure Control
Remote Controller Display
A5
Method of Malfunction Detection
High pressure control (heat pump model only)During heating operations, the temperature detected by the indoor heat exchanger thermistor is used for the high pressure control (stop, outdoor fan stop, etc.) The freeze-up protection control (operation halt) is activated during cooling operation according to the temperature detected by the indoor unit heat exchanger thermistor.
Malfunction Decision Conditions
High pressure controlDuring heating operations, the temperature detected by the indoor heat exchanger thermistor is above 65°CFreeze-up protection
When the indoor unit heat exchanger temperature is below 0°C during cooling operation.
Supposed Causes
Operation halt due to clogged air filter of the indoor unit.Operation halt due to dust accumulation on the indoor unit heat exchanger.Operation halt due to short-circuit.Detection error due to faulty indoor unit heat exchanger thermistor.Detection error due to faulty indoor unit PCB.
Service Diagnosis 73
Troubleshooting Si06-313
Troubleshooting
Check No.6Refer to P.107
Note: If the outside temperature is below –10°C in the cooling mode, the system may get interrupted with error A5 displayed. The system will be reset itself, but this stop will be put in the error history memory.
NO
NO
NOCheck No. 6Indoor unit heat exchanger thermistor check
Check the intake air filter.
Check the air passage.
YES
YES
(R1401)
Check the dust accumulation on the indoor unit heat exchanger.
YES
YES
Is there anyshort-circuit?
Is it very dirty?
Is it very dirty?
Does it conform to the thermistor characteristic
chart?
NO
Provide sufficient air passage.
Clean the air filter.
Clean the heat exchanger.
Replace the indoor unit PCB.
Replace the thermistor (replace the indoor unit PCB).
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
74 Service Diagnosis
Si06-313 Troubleshooting
4.4 Fan Motor (DC Motor) or Related Abnormality
Remote Controller Display
A6
Method of Malfunction Detection
The rotation speed detected by the hall IC during fan motor operation is used to determine abnormal fan motor operation.
Malfunction Decision Conditions
When the detected rotation speed is less than 50% of the H tap under maximum fan motor rotation demand.
Supposed Causes
Operation halt due to short circuit inside the fan motor winding.Operation halt due to breaking of wire inside the fan motor.Operation halt due to breaking of the fan motor lead wires.Operation halt due to faulty capacitor of the fan motor.Detection error due to faulty indoor unit PCB (1).
Service Diagnosis 75
Troubleshooting Si06-313
Troubleshooting
Check No.01Refer to P.104
Check No.02Refer to P.104 Replace fan motor.
Replace indoor unit PCB (1) .
Replace indoor unit PCB (1) .
Replace indoor unit PCB (2) .
Replace fan motor.Note : Motor may
break when the motor connector is disconnected while remaining power supply.
Replace fan motor and indoor PCB (2) .
Replace indoor unit PCB (2) .
Replace fan motor.
Replace indoor unit PCB (2) .
Turn off power supply and rotate fan by hand.
Turn power ON andoperate fan.
Turn off power supply and disconnect fan motor connector, then turn power ON.
Check No.01Check output of fan motor connector
Is motor power voltage
DC 200V generated?
Is motor control power voltage
DC 15V generated?
Turn off power supply and disconnect fan motor connector, then turn power ON again.
Does it rotate?
Stop fan motor.
Is rotation number command pulse
generated?
Is rotation number command pulse
generated?Check No.01Check output of fan motor connector
Check No.01Check output of fan motor connector
Check No.01Check output of fan motor connector
Check No.02Check output of indoor unit PCB (1)
Is motor control power voltage DC 16V
generetad?
Is rotation number command
voltage DC 5V generated?
Does fan rotate smoothly?
(R1214)
YES
YES
NO
YES
YES
NO
YES
NO
NO
YES
NO
YES
NO
YES
NO
NO
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
76 Service Diagnosis
Si06-313 Troubleshooting
4.5 Thermistor or Related Abnormality (Indoor Unit)
Remote Controller Display
C4, C9
Method of Malfunction Detection
The temperatures detected by the thermistors are used to determine thermistor errors.
Malfunction Decision Conditions
When the thermistor input is more than 4.96 V or less than 0.04 V during compressor operation∗.∗ (reference)When above about 212°C (less than 120 ohms) or below about -50°C (more than 1,860 kohms).
Note: The values vary slightly in some models.
Supposed Causes
Faulty connector connectionFaulty thermistorFaulty PCB
Troubleshooting
Check No.6Refer to P.107
C4 : Indoor heat exchanger thermistorC9 : Room temperature thermistor
Check the connector connection.
YES
Correct the connection.
Replace the thermistor.(Replace the indoor unit PCB.)
Replace the indoor unit PCB.
Is it normal?
Is it normal?
(R1403)
NO
Check No. 6Thermistor resistance check
YES
NO
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Service Diagnosis 77
Troubleshooting Si06-313
4.6 Shutter Drive Motor / Shutter Limit Switch Abnormality
Remote Controller Display
C7
Method of Malfunction Detection
The shutter open/close performance is detected by the limit switch attached on its structure. In this way, the shutter drive motor and the shutter limit switch are checked for failure.
Malfunction Decision Conditions
When the shutter is open, the limit switch is closed, or vice versa.
Supposed Causes
Shutter drive motor defectiveShutter limit switch defectiveShutter itself deformed (warped)Shutter's sealing material too thickDetection error by broken relay harness or disconnected connectorDetection error due to defective PCBForeign substance in blow port
Troubleshooting
Check No.3Refer to P.104 Turn off the power.
Check No. 3Check the limit switch continuity.
Remove such substance.
Replace the limit switch.
Reconnect the connector or replace the relay harness.
Replace the shutter drive motor or the PCB.Check the shutter's sealing material.
Check the shutter for deformation or its sealing material.
(R3055)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Foreign substance in the shutter structure?
YES
NO
NO
NO
YES
Shutter closed?NO
Shutter opening itself?YES
YES
YES
NO
Relay harness broken or connector
disconnected?
Limit switch on power?
Open the shutter and turn on the power.
78 Service Diagnosis
Si06-313 Troubleshooting
4.7 Signal Transmission Error (between Indoor and Outdoor Units)
Remote Controller Display
U4
Method of Malfunction Detection
The data received from the outdoor unit in indoor unit-outdoor unit signal transmission is checked whether it is normal.
Malfunction Decision Conditions
When the data sent from the outdoor unit cannot be received normally, or when the content of the data is abnormal.
Supposed Causes
Faulty outdoor unit PCB.Faulty indoor unit PCB.Indoor unit-outdoor unit signal transmission error due to wiring error.Indoor unit-outdoor unit signal transmission error due to disturbed power supply waveform.Indoor unit-outdoor unit signal transmission error due to breaking of wire in the connection wires between the indoor and outdoor units (wire No. 2).
Troubleshooting
Check No.10Refer to P.110
Check the outdoor unit's LED A.
Check the indoor unit-outdoor unit connection wires.
YES
YES
Correct the indoor unit-outdoor unit connection wires.
Diagnose the outdoor unit.
Replace the connection wires between the indoor and outdoor units.
Replace indoor unit control PCB .
Locate the cause of the disturbance of the power supply waveform, and correct it.
Is there any wiring error?
NO
(R2840)
Is LED A flashing?
Is the voltage 0 V?
NO
Check No. 10Check power supply waveform.
Check the voltage of the indoor unit-outdoor unit connection wires between No. 1 and No. 2, and between No 2 and No. 3.
YES
YES
NO
Is there any disturbance?NO
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Service Diagnosis 79
Troubleshooting Si06-313
4.8 OL Activation (Compressor Overload)
Remote Controller Display
E5
Method of Malfunction Detection
A compressor overload is detected through compressor OL.
Malfunction Decision Conditions
If the compressor OL is activated twice, the system will be shut down.The error counter will reset itself if this or any other error does not occur during the following 60-minute compressor running time (total time).
∗ The operating temperature condition is not specified.
Supposed Causes
Refrigerant shortageFour way valve malfunctioningOutdoor unit PCB defectiveWater mixed in the local pipingElectronic expansion valve defectiveStop valve defective
Troubleshooting
Check No.4Refer to P.105
Check No.5Refer to P.106
Check No.6Refer to P.107
Check No.11Refer to P.110
Insert the thermistor in position.
Replace the discharge pipe thermistor.
Replace the valve itself or the coil.
Replace the four way valve coil or the valve itself.Replace the outdoor unit PCB.
Refer to the refrigerant line check procedure.
Replace the outdoor unit PCB. (R2841)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Discharge pipe thermistor disconnected?
YES
Malfunctioning
∗ Discharge pipe thermistor
NO
Functioning
Functioning
Check No. 11Check the refrigerant line.
Malfunctioning
∗ Refrigerant shortage∗ Water mixed∗ Stop valve defective
Check No. 6Check the thermistors
Malfunctioning
Functioning
Check No. 4Check the electronic expantion
valve.
Malfunctioning
Functioning
Check No. 5Check the four way valve.
80 Service Diagnosis
Si06-313 Troubleshooting
4.9 Compressor Lock
Remote Controller Display
E6
Method of Malfunction Detection
A compressor lock is detected by checking the compressor running condition through the position detection circuit.
Malfunction Decision Conditions
The position detection circuit detects a compressor frequency of below 10 Hz for 20 seconds or a frequency of above 160 Hz.40 seconds after the compressor has started, the position detection circuit detects a compressor frequency of above 180 Hz.The system will be shut down if the error occurs 16 times.Clearing condition: Continuous run for about 5 minutes (normal)
Supposed Causes
Compressor locked
Troubleshooting
Turn off the power. Disconnect the harnesses U, V and W.
∗ Inverter checker Part No.: 1225477
Correct the power supply or replace the SPM. (Replace the outdoor unit PCB.)
Replace the compressor.
Check the electronic expansion valve. Replace it as required.
Replace the compressor.(R2842)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
NO
YES
YES
System shut down after errors repeated
several times?
NO
NO
Normal?
YESEmergency stopwithout compressor
running?
Check with the inverter checker (∗).
Turn off the power and reconnect the harnesses. Turn on the power again and get the system restarted.
Service Diagnosis 81
Troubleshooting Si06-313
4.10 DC Fan Lock
Remote Controller Display
E7
Method of Malfunction Detection
A fan motor or related error is detected by checking the high-voltage fan motor rpm being detected by the hall IC.
Malfunction Decision Conditions
The fan does not start in 30 seconds even when the fan motor is running.The system will be shut down if the error occurs 16 times.Clearing condition: Continuous run for about 5 minutes (normal)
Supposed Causes
Fan motor breakdownHarness or connector disconnected between fan motor and PCB or in poor contactForeign matters stuck in the fan
Troubleshooting
Check No.15Refer to P.112
Turn off the power and reconnect the connector.
Remove.
Replace the outdoor unit fan motor.
Replace the outdoor unit PCB.
(R2843)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Fan motor connector disconnected?
YES
YES
NO
YES
NO
Pulse signal inputted?NO
Foreign matters in or around the fan?
Get started.
Check No. 15Check the outdoor unit PCB rpm pulse input.
82 Service Diagnosis
Si06-313 Troubleshooting
4.11 Input Over Current Detection
Remote Controller Display
E8
Method of Malfunction Detection
An input over-current is detected by checking the input current value being detected by CT with the compressor running.
Malfunction Decision Conditions
The following CT input with the compressor running continues for 2.5 seconds. CT input : Above 20 AThe system will be shut down if the error occurs 16 times.Clearing condition : Continuous run for about 5 minutes (normal)
Supposed Causes
Over-current due to compressor failureOver-current due to defective power transistorOver-current due to defective inverter main circuit electrolytic capacitorOver-current due to defective outdoor unit PCBError detection due to outdoor unit PCBOver-current due to short-circuit
Service Diagnosis 83
Troubleshooting Si06-313
Troubleshooting
Check No.7Refer to P.108
Check No.8Refer to P.109
Check No.14Refer to P.112
Replace the outdoor unit PCB.
Replace the electrolytic capacitor.
∗ Inverter checker Part No.: 1225477
Correct the power supply or replace the SPM.(Replace the outdoor unit PCB.)
(R2844)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Input current flowing above its stop level?
NO
YES
Normal?NO
YES
Any LED off?YES
NO
Check with the inverter checker (∗).
Turn off the power, and reconnect the harnesses. Turn on the power again and get restarted.
Turn off the power and disconnect the harnesses U, V and W.
Get restarted and measure the input current.
Check No. 8Check the discharge pressure.
Check No. 7Check the installation condition.
Check No. 14Check the main circuit electrolytic capacitor.
∗ An input over-current may result from wrong internal wiring. If the wires have been disconnected and reconnected for part replacement, for example, and the system is interrupted by an input over-current, take the following procedure.
84 Service Diagnosis
Si06-313 Troubleshooting
4.12 Four Way Valve Abnormality
Remote Controller Display
EA
Method of Malfunction Detection
The room temperature thermistor, the indoor unit heat exchanger thermistor, the outdoor temperature thermistor and the outdoor unit heat exchanger thermistor are checked to see if they function within their normal ranges in the operating mode.
Malfunction Decision Conditions
A following condition continues over 1 minute after operating 10 minutes.Cooling / dry operation(room temp. – indoor heat exchanger temp.) < -10°CHeating(indoor unit heat exchanger temp. – room temp.) < -10°C
Supposed Causes
Connector in poor contactThermistor defectiveOutdoor unit PCB defectiveFour way valve coil or harness defectiveFour way valve defectiveForeign substance mixed in refrigerantInsufficient gas
Service Diagnosis 85
Troubleshooting Si06-313
Troubleshooting
Check No.5Refer to P.106
Check No.6Refer to P.107
Check No.11Refer to P.110
Correct.
Reconnect.
Replace the four way valve coil.
Replace the outdoor unit PCB.
Reconnect in position.
Replace a defective thermistor.
Refer to the refrigerant line check procedure.
Replace the four way valve (defective or dust-clogged).
(R2845)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Four way valve coil disconnected (loose)?
YES
YES
NO
Functioning
NO
Check No. 11Check the refrigerant line.
Malfunctioning
l Insufficient gasl Water mixedl Stop valve defective
Harness out of connector?
NO
YES
Disconnect the harness from the connector.
Resistance between harnesses about
1500 ohms?
Malfunctioning
Functioning
Check No. 5Check the four way valve
switching output.
YES
NO
Any thermistor disconnected?
Malfunctioning
Functioning
Check No. 6Check the thermistors.
Check the continuity of the four way valve coil and harness.
86 Service Diagnosis
Si06-313 Troubleshooting
4.13 Discharge Pipe Temperature Control
Remote Controller Display
F3
Method of Malfunction Detection
The discharge pipe temperature control (stop, frequency drooping, etc.) is checked with the temperature being detected by the discharge pipe thermistor.
Malfunction Decision Conditions
If a stop takes place 6 times successively due to abnormal discharge pipe temperature, the system will be shut down.If the temperature being detected by the discharge pipe thermistor rises above 120°C, the compressor will stop. (The error is cleared when the temperature has dropped below 107°C.)
Stop temperatures (in case of 5.0kW class)(1) 110°C : above 45Hz (rising), above 40Hz (dropping)(2) 102°C : 30~45Hz (rising), 25~40Hz (dropping)(3) 98°C : below 30Hz (rising), below 25Hz (dropping)
The error counter will reset itself if this or any other error does not occur during the following 60-minute compressor running time (total time).
Supposed Causes
Refrigerant shortageFour way valve malfunctioningDischarge pipe thermistor defective(heat exchanger or outdoor temperature thermistor defective)Outdoor unit PCB defectiveWater mixed in the local pipingElectronic expansion valve defectiveStop valve defective
Troubleshooting
Check No.4Refer to P.105
Check No.6Refer to P.107
Check No.11Refer to P.110
Replace a defective thermistor.
Replace the valve itself or the coil.
Refer to the refrigerant line check procedure.
Replace the outdoor unit PCB.
(R2846)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Check No. 6Check the thermistors.
Malfunctioning
l Discharge pipe thermistorl Outdoor unit heat exchanger thermistorl Outdoor temperature thermistor
l Refrigerant shortagel Four way valve malfunctioningl Water mixedl Stop valve defective
Malfunctioning
Functioning
Functioning
Functioning
Check No. 11Check the refrigerant line.
Malfunctioning
Check No. 4Check the electronic expansion
valve.
Service Diagnosis 87
Troubleshooting Si06-313
4.14 Position Sensor Abnormality
Remote Controller Display
H6
Method of Malfunction Detection
A compressor startup failure is detected by checking the compressor running condition through the position detection circuit.
Malfunction Decision Conditions
The compressor fails to start in about 15 seconds after the compressor run command signal is sent.Clearing condition: Continuous run for about 5 minutes (normal)The system will be shut down if the error occurs 16 times.
Supposed Causes Compressor relay cable disconnected
Compressor relay cable disconnectedCompressor itself defectiveOutdoor unit PCB defectiveStop valve closedInput voltage out of specification
Troubleshooting
Check No.13Refer to P.111
Replace the outdoor unit PCB, outdoor unit fan.
Replace the outdoor unit PCB.
Reconnect as specified.
∗ Inverter checker Part No.: 1225477
Correct the power supply or replace the outdoor unit PCB.
Replace the compressor.
(R2847)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
NormalNO
NO
NO
YES
YES
NO
YES
Any LED off?
DC380±30V?
Electricalsor compressor harnesses
connected asspecified?
Check the electrolytic capacitor voltage.
Check with the inverter checker (∗).
Turn off the power. Disconnect the harnesses U, V and W.
Check No. 13Check for short-circuit.
88 Service Diagnosis
Si06-313 Troubleshooting
4.15 CT or Related Abnormality
Remote Controller Display
H8
Method of Malfunction Detection
A CT or related error is detected by checking the compressor running frequency and CT-detected input current.
Malfunction Decision Conditions
The compressor running frequency is below 55 Hz and the CT input is below 0.1 V.(The input current is also below 1.25 A.)
If this error repeats 4 times, the system will be shut down.The error counter will reset itself if this or any other error does not occur during the following 60-minute compressor running time (total time).
Supposed Causes
Power transistor defectiveInternal wiring broken or in poor contactReactor defectiveOutdoor unit PCB defective
Service Diagnosis 89
Troubleshooting Si06-313
Troubleshooting
Check No.12Refer to P.111 Turn off the power and turn it on
again.
Check No. 12Check the capacitor voltage.
Replace the outdoor unit PCB.
* Inverter checker Part No.: 1225477
Correct the power supply or replace the SPM.(Replace the outdoor unit PCB.)
Replace the outdoor unit PCB.
Replace the compressor.
Replace the outdoor unit PCB.
Check the supply voltage.(R2848)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
∗ Running current as shown at right with relay
cable 1 or 2?
YES
Current (guideline)
2 sec Time
Rising with increasingfrequency
Capacitor charged when the indoor unit or outdoorunit main relay turns onNO
NO
DC380±30V?YES
Voltage within the allowable range (Supply
voltage±15%)?
YES
NO
Any LED off?
Compressor running?YES
NO
YES
NO
Get the system started.
Measure the rectifier input voltage.
Turn off the power. Disconnect the harnesses U, V and W.
Check with the inverter checker (∗).
Turn off the power and reconnect the above harnesses. Then turn on the power again and get the system restarted.
90 Service Diagnosis
Si06-313 Troubleshooting
4.16 Thermistor or Related Abnormality (Outdoor Unit)
Remote Controller Display
P4, J3, J6, H9
Method of Malfunction Detection
This type of error is detected by checking the thermistor input voltage to the microcomputer.[A thermistor error is detected by checking the temperature.]
Malfunction Decision Conditions
The thermistor input is above 4.96 V or below 0.04 V with the power on.Error J3 is judged if the discharge pipe thermistor temperature is smaller than the condenser thermistor temperature.
Supposed Causes
Connector in poor contactThermistor defectiveOutdoor unit PCB defectiveIndoor unit PCB defectiveCondenser thermistor defective in the case of J3 error (outdoor unit heat exchanger thermistor in the cooling mode, or indoor unit heat exchanger thermistor in the heating mode)
Service Diagnosis 91
Troubleshooting Si06-313
Troubleshooting
Check No.6Refer to P.107
P4 : Radiation fin thermistorJ3 : Discharge pipe thermistorJ6 : Outdoor heat exchanger thermistorH9 : Outdoor air thermistor
Turn on the power again.
Reconnect.
Reconnect.
Replace defective one(s) of the following thermistors.l Radiation fin thermistorl Discharge pipe temperature thermistorl Outdoor unit heat exchanger temperature thermistorl Outdoor air thermistor
Replace the following thermistor.l Indoor unit heat exchanger thermistor
Replace the outdoor unit PCB. (Replace the indoor unit PCB.)
(R2849)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Error displayed again on remote controller?
NO
YES
YES
YES
NO
Indoor unit heat exchanger thermistor
functioning?
NO
Connector or thermistor disconnected?
NO
YES
Normal?
Check No. 6Check the thermistor resistance value.
Check No. 6Check the indoor unit heat exchanger thermistor resistance value in the heating mode.
92 Service Diagnosis
Si06-313 Troubleshooting
4.17 Electrical Box Temperature Rise
Remote Controller Display
L3
Method of Malfunction Detection
An electrical box temperature rise is detected by checking the radiation fin thermistor with the compressor off.
Malfunction Decision Conditions
With the compressor off, the radiation fin temperature is above 80°C (above 75°C in the case of 7.1kW class). (Reset is made when the temperature drops below 70°C.)
Supposed Causes
Fin temperature rise due to defective outdoor unit fanFin temperature rise due to short-circuitFin thermistor defectiveConnector in poor contactOutdoor unit PCB defective
Service Diagnosis 93
Troubleshooting Si06-313
Troubleshooting
Check No.6Refer to P.107
Check No.7Refer to P.108
Check No.9Refer to P.109
Turn off the power and turn it on again.
Check No. 6Check the thermistor resistance value.
Replace the fin thermistor.
Replace the outdoor unit PCB.
Replace the fan motor.Correct the connectors and fan motor leads.Replace the outdoor unit PCB.
Clean up the radiation fin.
(R2850)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Error again or outdoor unit fan activated?
YES
l Fin thermistor
NO
Slightly dirty
Check No. 9Check the outdoor unit
fan or related.
Malfunctioning
Radiation fin dirty?Too dirty
Functioning
Thermistor as specified in its characteristic
chart?
Above 80˚C?NO
YES
NO
YES
Check the radiation fin temperature.
Check No. 7Check the installation condition.
WARNING
To cool down the electricals, the outdoor unit fan gets started when the radiation fin temperature rises above 78˚C and stops itself when it drops below 70˚C.
94 Service Diagnosis
Si06-313 Troubleshooting
4.18 Radiation Fin Temperature Rise
Remote Controller Display
L4
Method of Malfunction Detection
A radiation fin temperature rise is detected by checking the radiation fin thermistor with the compressor on.
Malfunction Decision Conditions
If the radiation fin temperature with the compressor on is above 90°C,If a radiation fin temperature rise takes place 4 times successively, the system will be shut down.The error counter will reset itself if this or any other error does not occur during the following 60-minute compressor running time (total time).
Supposed Causes
Fin temperature rise due to defective outdoor unit fanFin temperature rise due to short-circuitFin thermistor defectiveConnector in poor contactOutdoor unit PCB defective
Service Diagnosis 95
Troubleshooting Si06-313
Troubleshooting
Check No.6Refer to P.107
Check No.7Refer to P.108
Check No.9Refer to P.109
Turn off the power and turn it on again to get the system started.
Check No. 6Check the thermistor resistance value.
Replace the fin thermistor.
Check the power transistor and fin for looseness. If they are found to be fit tightly, replace the PCB or the power transistor.
Replace the fan motor.Correct the connectors and fan motor leads.Replace the outdoor unit PCB.
Clean up the radiation fin.
(R2851)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Error displayed again?YES
NO
Slightly dirty
Check No. 9Check the outdoor unit
fan or related.
Malfunctioning
Radiation fin dirty?Too dirty
Functioning
Thermistor as specified in its characteristic
chart?
Above 90˚C?NO
YES
NO
YES
l Fin thermistor
Check the radiation fin temperature.
Check No. 7Check the installation condition.
96 Service Diagnosis
Si06-313 Troubleshooting
4.19 Output Over Current Detection
Remote Controller Display
L5
Method of Malfunction Detection
An output over-current is detected by checking the current that flows in the inverter DC section.
Malfunction Decision Conditions
A position signal error occurs while the compressor is running.A speed error occurs while the compressor is running.An output over-current input is fed from the output over-current detection circuit to the microcomputer.The system will be shut down if the error occurs 16 times.Clearing condition: Continuous run for about 5 minutes (normal)
Supposed Causes
Over-current due to defective power transistorOver-current due to wrong internal wiringOver-current due to abnormal supply voltageOver-current due to defective PCBError detection due to defective PCBOver-current due to closed stop valveOver-current due to compressor failureOver-current due to poor installation condition
Service Diagnosis 97
Troubleshooting Si06-313
Troubleshooting
Check No.7Refer to P.108
Check No.8Refer to P.109
Check No.13Refer to P.111
Fully open the stop valve.
Keep on using as it is (monitor).Check the electricals' connectors and other fittings.
∗ Inverter checker Part No.: 1225477
Correct the power supply or replace the SPM.(Replace the outdoor unit PCB.)
Replace the SPM.(Replace the outdoor unit PCB.)
Correct the power supply.
Replace the compressor.
(R2852)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Stop valve fully open?NO
YES
∗ An output over-current may result from wrong internal wiring. If the wires have been disconnected and reconnected for part replacement, for example, and the system is interrupted by an output over-current, take the following procedure.
Error again?NO
YES
NO
YES
Voltage as rated?
YES
NO
Short-circuitor breakage between
compressor's coil phases?
NO
YES
Normal?
YES
NO
Any LED off?
Turn off the power and turn it on again to get the system started. See if the same error occurs.
Turn off the power and disconnect the harnesses U, V and W.
Monitor the supply voltage, discharge and suction pressures, and other factors for a long term.
Possible causesl Instantaneous supply voltage dropl Compressor motor overloadedl Contact-induced electrical short- circuit
Check with the inverter checker (∗).
Turn off the power, and reconnect the harnesses. Turn on the power again and get restarted.
Check the supply voltage.
Check No. 13Check the power transistor.
Check No. 8Check the discharge pressure.
Check No. 7Check the installation condition.
98 Service Diagnosis
Si06-313 Troubleshooting
4.20 Insufficient Gas
Remote Controller Display
U0
Method of Malfunction Detection
Gas shortage detection I : A gas shortage is detected by checking the CT-detected input current value and the compressor running frequency.Gas shortage detection II : A gas shortage is detected by checking the difference between indoor unit heat exchanger temperature and room temperature as well as the difference between outdoor unit heat exchanger temperature and room temperature.
Malfunction Decision Conditions
Gas shortage detection I : Input current < (A/Hz) x Compressor running frequency × Voltage +However, when the status of running frequency > 55 (Hz) is kept on for a certain time.Note : The values are different from model to model.
Gas shortage detection II : If a gas shortage error takes place 4 times successively, the system will be shut down. The error counter will reset itself if this or any other error does not occur during the following 60-minute compressor running time (total time).
Supposed Causes
Refrigerant shortage (refrigerant leakage)Poor compression performance of compressorDischarge pipe thermistor disconnected, or indoor unit or outdoor unit heat exchanger thermistor disconnected, room or outside air temperature thermistor disconnectedStop valve closedElectronic expansion valve defective
R410A 1756 / 256 –50
Service Diagnosis 99
Troubleshooting Si06-313
Troubleshooting
Check No.4Refer to P.105
Check No.6Refer to P.107
Reconnect in position.
Open the stop valve.
Repair the pipe flare or replace the square union.
Check the power transistor harness for looseness. Correct it as required. Also replace cracked pipe if any.
Check the pipes for improper contact. Correct as required. Also replace cracked pipe if any.
Replace the electronic expansion valve.
CT in trouble (refer to H8).
Replace the room temperature or outdoor air thermistor, or the indoor unit or outdoor unit heat exchanger thermistor.
(1) Replace the PCB.(2) Replace the compressor.
Procedure complete(R2853)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Any thermistor disconnected?
YES
Malfunctioning
Malfunctioning
NO
Functioning
Stop valve closed?
NO
YES
Check the CT.
YES
NO
Gas shortage error again?
Functioning
Check No. 6Check the thermistors.
YES
NO
Oil oozing at internal piping?
NO
YES
Check No. 4Electronic expansion valve
functioning?
YES
NO
Oil oozing at relay pipe connections?
Check for gas leakage.
Change for a specified amount of fresh refrigerant.
NO
YESCompressor vibrating too much?
* Discharge pipe thermistor* Indoor / outdoor unit heat exchanger thermistor* Room temperature thermistor* Outdoor air thermistor
100 Service Diagnosis
Si06-313 Troubleshooting
4.21 Low-voltage Detection
Remote Controller Display
U2
Method of Malfunction Detection
An abnormal voltage rise or drop is detected by checking the detection circuit or DC voltage detection circuit.
Malfunction Decision Conditions
An over-voltage signal is fed from the over-voltage detection circuit to the microcomputer, or the voltage being detected by the DC voltage detection circuit is judged to be below 150 V for 0.1 second.The system will be shut down if the error occurs 16 times.Clearing condition: Continuous run for about 60 minutes (normal)
Supposed Causes
Supply voltage not as specifiedOver-voltage detector or DC voltage detection circuit defectivePAM control part(s) defective
Troubleshooting
Check the supply voltage.
Correct the power supply.
Check for such factors for a long term.∗ Try to get restarted a couple of times.
Replace the SPM.(Replace the outdoor unit PCB.)
(R2854)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Supply voltage as specified?
NO
YES
Turn on thepower again.
System restarted?
NO
Repeat a couple of times.
YES
(Precaution before turning on the power again) Make sure the power has been off for at least 30 seconds.
Disturbance factors∗ Noise ∗ Power supply distortion
Service Diagnosis 101
Troubleshooting Si06-313
4.22 High Pressure Control in Cooling
Remote Controller Display
F6
Method of Malfunction Detection
High-pressure control (stop, frequency drop, etc.) is activated in the cooling mode if the temperature being sensed by the heat exchanger thermistor exceeds the limit.
Malfunction Decision Conditions
Activated when the temperature being sensed by the heat exchanger thermistor rises above 60°C. (Deactivated when the said temperature drops below 50°C.)
Supposed Causes
The installation space is not large enough.Faulty outdoor unit fanFaulty electronic expansion valveFaulty defrost thermistorFaulty outdoor unit PCBFaulty stop valveDirty heat exchanger
102 Service Diagnosis
Si06-313 Troubleshooting
Troubleshooting
Check No.4Refer to P.105
Check No.6Refer to P.107
Check No.7Refer to P.108
Check No.9Refer to P.109
(R2855)
CautionBe sure to turn off power switch before connect or disconnect connector, or parts damage may be occurred.
Replace the fan motor.Repair the connector or fan motor lead wires.
Replace the heat exchangerthermistor.
Replace PCB.
Replace the electronic expansion valve or coil.Replace the PCB.
Change the air outlet grille position.Change the installation location.Clean the heat exchanger.
Check the installation space.
Check No.9Outdoor fan check
Judgment
Check No.6Heat exchanger thermistor check
Judgment
Check No.7Installation condition
check
Check No.4Electronic expansion valve check
Abnormal
Normal
Normal
Normal
Normal
Abnormal
Abnormal
Abnormal
Service Diagnosis 103
Check Si06-313
5. Check5.1 How to Check5.1.1 Fan Motor Connector Output Check
Check No.01 1. Check connector connection.2. Check motor power supply voltage output (pins 4-7 and 4-8).3. Check motor control voltage (pins 4-3).4. Check rotation command voltage output (pins 4-2).5. Check rotation pulse input (pins 4-1).
Check No.02 1. Check connector connection.2. Check motor control voltage output (pins 2-1).
5.1.2 Limit Switch Continuity check
Check No.3 Remove the front grille. The limit switch is located at the left side of the drain pan assembly. Check the continuity of the switch connection.
∗ The shutter can be opened and closed with hand. Keep the shutter open and closed all the way for each continuity check steps.
7654321
Motor power supply voltageUnusedUnusedP.0V (reference potential)Motor control voltage (15 VDC)Rotation command voltage (1~ 5 VDC)Rotation pulse input
Upper fan connector
87654321
Motor power supply voltageUnusedUnusedUnusedP.0V (reference potential)Motor control voltage (15 VDC)Rotation command voltage (1 to 5 VDC)Rotation pulse input
Lower fan connector
(R1224)
54321
Motor power supply voltageUnusedUnusedP.0V (reference potential)Motor control power supply
S202
(R1073)
Tester
Limit switch
Forward
Upward
Shutter status
Continuity
Closed
No continuity
Open
Continuity
(Q0363)
104 Service Diagnosis
Si06-313 Check
5.1.3 Electronic Expansion Valve Check
Check No.4 Conduct the followings to check the electronic expansion valve (EV).1. Check to see if the EV connector is correctly inserted in the PCB. Compare the EV unit and
the connector number.2. Turn the power off and back on again, and check to see if all the EVs generate latching
sound.3. If any of the EVs does not generate latching noise in the above step 2, disconnect that
connector and check the conductivity using a tester.Check the conductivity between pins 1, 3 and 6, and between pins 2, 4 and 5. If there is no conductivity between the pins, the EV coil is faulty.
4. If no EV generates latching sound in the above step 2, the outdoor unit PCB is faulty.5. If the conductivity is confirmed in the above step 2, mount a good coil (which generated
latching sound) in the EV unit that did not generate latching sound, and check to see if that EV generates latching sound.∗If latching sound is generated, the outdoor unit PCB is faulty.∗If latching sound is not generated, the EV unit is faulty.
Note: Please note that the latching sound varies depending on the valve type.
Harness 6P
6P Connector Check
5-25-46-16-3
1 2 3 4 5 6(R1082)
Service Diagnosis 105
Check Si06-313
5.1.4 Four Way Valve Performance Check
Check No.5
Turn off the power and turn it on again.
Start the heating-mode run.
Replace the outdoor unit PCB.
Replace the four way valve coil.
Replace the four way valve.
(R2856)
NO
∗ Four way valve coil Cooling / dry : No continuity Heating : Continuity
YES
YES
Four way valvecoil resistance at
1500 ohms?
NO
S80 voltageat DC 180-220 V with
compressor on? (Fig. 1)
Disconnect the four way valve coil from the connector and check the continuity.
(Fig. 1)
Voltage at S80
DC180-220V
ONCompressor
Time
106 Service Diagnosis
Si06-313 Check
5.1.5 Thermistor Resistance Check
Check No.6 Remove the connectors of the thermistors on the PCB, and measure the resistance of each thermistor using tester.The relationship between normal temperature and resistance is shown in the graph and the table below.
Thermistor R25°C=20kΩ B=3950
Temperature (°C)
-20 211.0 (kΩ)
-15 150
-10 116.5
-5 88
0 67.2
5 51.9
10 40
15 31.8
20 25
25 20
30 16
35 13
40 10.6
45 8.7
50 7.2
Service Diagnosis 107
Check Si06-313
5.1.6 Installation Condition Check
Check No.7
Installation condition check
Normal
Change the position of the air discharge grille or the installation location.
Change the position of the air discharge grille or the installation location.
Clean the heat exchanger.
Change the installation location or direction.
Check the outside air temperature (temperature of air taken in by the outdoor unit). (The outside air temperature shall be 43˚C or lower.)
Check the allowable
dimensions of the air suctionand discharge
area.
Isthe air flow
blocked by obstacles orwinds blowing in theopposite direction?
(R1438)
Abnormal
YES
YES
YES
Doesthe discharged
air from other outdoorunit cause an increase of
the suction airtemperature?
NO
NO
NO
Is the heat exchangervery dirty?
108 Service Diagnosis
Si06-313 Check
5.1.7 Discharge Pressure Check
Check No.8
5.1.8 Outdoor Unit Fan System Check (With DC Motor)
Check No.9
Discharge pressure check
Replace compessor.
Open the stop valve.
Replace the pipe installed at the site.
Clean.
Replace the compressor.
(R1443)
YES
YES
YES
NO
NO
NO
NO
At the heat exchanger andair filter dirty?
Is the stop valve open?
Is theconnection pipe deformed?
YES
High
Check the outdoor unit fan system.
Reconnect.
(R2857)
Outdoor unit fan running?
YES
Fan motor lead wire connector disconnected?
YESNO
NO
Outdoor unit fan system functioning. Go to Check No. 15.
Service Diagnosis 109
Check Si06-313
5.1.9 Power Supply Waveforms Check
Check No.10 Measure the power supply waveform between pins 1 and 3 on the terminal board, and check the waveform disturbance.
Check to see if the power supply waveform is a sine wave (Fig.1).Check to see if there is waveform disturbance near the zero cross (sections circled in Fig.2)
5.1.10 Inverter Units Refrigerant System Check
Check No.11
[Fig.1] [Fig.2]
Refrigerant system check
Check for gas leaks.See the section on insufficient gas detection.
Conduct the check after operating theequipment for a sufficient length of time.
Correct the problem.
Conduct vacuum drying.
Replace the refrigerant.
Isthe discharge
thermister disconnected fromthe holder?
(R1445)
YES
YES
YES
Is any moisturefound in sight glass.
NO
NO
110 Service Diagnosis
Si06-313 Check
5.1.11 Capacitor Voltage Check
Check No.12 Before this checking, be sure to check the main circuit for short-circuit.Checking the capacitor voltageWith the circuit breaker still on, measure the voltage according to the drawing of the model in question. Be careful never to touch any live parts.
5.1.12 Power Transistor Check
Check No.13 Checking the power transistorNever touch any live parts for at least 10 minutes after turning off the circuit breaker.If unavoidably necessary to touch a live part, make sure the power transistor's supply voltage is below 50 V using the tester.For the UVW, make measurements at the Faston terminal on the board or the relay connector.
Fan motorlead wire
Solenoid valvelead wire
Thermistorlead wire
OLlead wire
Reactor lead wire
Compressorlead wire
TB2
>PS<
TB3P2N1
590592
593580
520521
522
540
(R2858)
Use the testerin the DC range.
Tester's negative terminal Power transistor (+) UVW Power transistor
(–) UVW
Tester's positive terminal UVW Power transistor (+) UVW Power transistor
(–)
Normal resistance Several kohms to several Mohms
Abnormal resistance 0 or ∞
Service Diagnosis 111
Check Si06-313
5.1.13 Main Circuit Electrolytic Capacitor Check
Check No.14 Checking the main circuit electrolytic capacitorNever touch any live parts for at least 10 minutes after turning off the circuit breaker.If unavoidably necessary to touch a live part, make sure there is no DC voltage using the tester.Check the continuity with the tester. Reverse the pins and make sure there is continuity.
5.1.14 Turning Speed Pulse Input on the Outdoor Unit PCB Check
Check No.15 <Propeller fan motor>Make sure the voltage of 270±30V is being applied.(1) Stop the operation first and then the power off, and disconnect the connector S70.(2) Make sure there is about DC 270 V between pins 4 and 7.(3) With the system and the power still off, reconnect the connector S70.(4) Make a turn of the fan motor with a hand, and make sure the pulse (0-15 V) appears twice at
pins 1 and 4.
If the fuse is blown out, the outdoor-unit fan may also be in trouble. Check the fan too.If the voltage in Step (2) is not applied, it means the PCB is defective. Replace the PCB.If the pulse in Step (4) is not available, it means the Hall IC is defective. Replace the DC fan motor.If there are both the voltage (2) and the pulse (4), replace the PCB.
∗ Propeller fan motor : S70
7654321 DC270V
S70
PCB
Turning speed pulse input (0-15 V)
15V
(R2859)
112 Service Diagnosis
Si06-313
Removal Procedure 113
Part 7Part 7Part 7Part 7Removal ProcedureRemoval ProcedureRemoval ProcedureRemoval Procedure
1. Indoor Unit...........................................................................................1141.1 Removal of the Air Filter / Front Panel .................................................1141.2 Removal of the Horizontal Blade..........................................................1171.3 Removal of the Electrical Box ..............................................................1181.4 Removal of the PCB.............................................................................1211.5 Removal of the Heat Exchanger ..........................................................1231.6 Removal of the Fan Rotor / Fan Motor.................................................125
2. Outdoor Unit........................................................................................1272.1 Removal of the Panels and Plates .......................................................1272.2 Removal of the Fan Motor / Propeller Fan ...........................................1312.3 Removal of the PCB / Electrical Box ....................................................1352.4 Removal of the Reactor........................................................................1432.5 Removal of the Sound Blanket.............................................................1452.6 Removal of the Four Way Valve...........................................................1472.7 Removal of the Electronic Expansion Valve.........................................1482.8 Removal of the Compressor.................................................................149
Indoor Unit Si06-313
1. Indoor Unit1.1 Removal of the Air Filter / Front Panel
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 AppearanceEnlarged illustration shows operation panel section.
Operation panel
2 Remove the front panel from the unit.Push on the left and right upper parts of the panel marked with “PUSH” to open the front panel.
114 Removal Procedure
Si06-313 Indoor Unit
3 Press down the two hooks located at left and right side upper parts of the air filter, then bend slightly the air filter to remove it.
4 Unhook the chain.
Step Procedure Points
Removal Procedure 115
Indoor Unit Si06-313
5 Disengage the three hooks on the bottom of the front panel.
Mounting screw M4 × 16
6 Remove the four screws to take out the front grille.
Step Procedure Points
116 Removal Procedure
Si06-313 Indoor Unit
1.2 Removal of the Horizontal Blade
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 Open the horizontal blade.
2 Disengage the supporting bracket at the center position.
3 Bend the horizontal blade slightly to disengage the shafts at left and right side of the blade.
For installation, engage the supporting bracket at center of the blade after insert the shafts at both ends to the pivot holes.
Removal Procedure 117
Indoor Unit Si06-313
1.3 Removal of the Electrical Box
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 Set the horizontal blade in horizontal position to take out the front grille forward.
2 Remove the setting screw to remove the wire clamp.
3 Disconnect the four connectors of the lead wire.
118 Removal Procedure
Si06-313 Indoor Unit
4 Remove the room temperature thermistor.
5 Remove the heat exchanger thermistor.
Be sure not to drop the thermistor retaining spring
6 Dismount the two screws to remove the drip proof plate.
Mounting screw M4 × 8
Step Procedure Points
Removal Procedure 119
Indoor Unit Si06-313
7 To remove the electrical box, dismount the two fixing screws and pull out the box forward.
Mounting screw M4 × 16
8 Illustration shows parts in the electrical box.
Step Procedure Points
120 Removal Procedure
Si06-313 Indoor Unit
1.4 Removal of the PCB
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 Dismount the fixing screw to remove PCBs from the electrical box.
Display PCB
2 Illustration shows the control PCB (indoor unit).
Removal Procedure 121
Indoor Unit Si06-313
3 Illustration shows the power supply PCB (indoor unit).
SW2SW2-1: unusedSW2-2: unusedSW2-3: unusedSW2-4: OFF-initial set
ON-limit upward air flow
4 Illustration shows the service PCB.
Select to discharge air only from top discharge port.Select to discharge air with automatic pattern decided in accordance with operation mode and operation conditions.It is recommendable to select .
has been selected before factory shipment.
Step Procedure Points
122 Removal Procedure
Si06-313 Indoor Unit
1.5 Removal of the Heat Exchanger
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
Conduct pump-down operation and check that gas has been purged completely before starting service work.
Mounting screw M4 × 16
1 Dismount the two screws to remove the top discharge grille.
2 Remove the heat exchanger. Warning!
If refrigerant gas leaks during service work, ventilate work area.(Toxic gas may be generated when refrigerant gas contacts with flame.)
3 Disconnect the flared joint of liquid pipe using two wrenches.
14/17 double ended wrench
4 Disconnect the flared joint of gas pipe using two wrenches.
17/23 double ended wrench
Caution!Do not contaminate any gas (including air) other than the specified refrigerant (R410A)(Contaminating of air or other gas causes abnormal temperature rise in refrigerating cycle, and this results in pipe breakage or personal injuries.)
After pipes are disconnected, close all pipe openings with caps to prevent dust and moisture from entering pipes.
Removal Procedure 123
Indoor Unit Si06-313
5 Dismount the fixing screw to remove the pipe retaining plate of the heat exchanger.Push the pipe retaining plate backward to disengage hook, then open the retaining plate using straight edge of screw-driver to remove the plate.
Mounting screw M4 × 16
6 Remove the two screws located at left side of the heat exchanger.
Mounting screw M4 × 16
7 Pull forward left side of the heat exchanger , slide to right to disengage hook and remove the heat exchanger.
Caution!When removing orre-installing heat exchanger, be sure to wear protective gloves or wrap heat exchanger with cloths. (Fins can cut fingers.)
Step Procedure Points
124 Removal Procedure
Si06-313 Indoor Unit
1.6 Removal of the Fan Rotor / Fan Motor
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 For removal of the drain pan, disconnect the drain hose, then dismount the two screws located at left and right sides.
Be careful not to wet the floor with drain water.
Disengage harness for drain pan from right side hook.
2 Remove the drain pan. This swing motor is for down flow shutter.
3 To remove the swing motor on discharge port of the drain pan, dismount the two fixing screws.
Removal Procedure 125
Indoor Unit Si06-313
4 Dismount the six screws (three for the upper side motor and three for the bottom one) to remove the fan motors.
Short lead wire: for the upper fan motorLong lead wire: for the bottom fan motorMounting screw M4 × 16
5 Remove the motors and cross flow fans.
Loosen the fixing screw to separate the fan and motor.
6 To remove the casing, dismount the four screws at front side and the other four screws at rear side.
Casing mounting screwFront: M4 × 16Rear: M4 × 14
Condition : CasingProtruded : Not to be removedSemi-sink : To be removedSink : Not to be removed
Step Procedure Points
126 Removal Procedure
Si06-313 Outdoor Unit
2. Outdoor Unit2.1 Removal of the Panels and Plates
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1. Remove the panels and plates.
Take care not to cut your finger by the fins of the heat exchanger.
1 Loosen the four screws and lift the top panel.
2 Loosen the four screws and remove the discharge grille.
Removal Procedure 127
Outdoor Unit Si06-313
The front grille has four claws. Slide the discharge grille upwards and remove it.
3 Loosen the six screws of the front panel.
4 Push the front panel and undo the claw. Lift the clamp plate and remove it.
Step Procedure Points
128 Removal Procedure
Si06-313 Outdoor Unit
5 Undo the right side claw, and then the left side claws.Remove the front panel.
Lift the front panel and remove it while pushing the right side panel inwards.
Lift the front panel and undo the left side claws.Fit the left side of the front panel first when installing.
Step Procedure Points
Removal Procedure 129
Outdoor Unit Si06-313
2. Remove the stop valve cover.
1 Loosen the screw of the stop valve cover.
2 Pull down the stop valve cover to undo the claws and remove it.
The stop valve cover has six claws.
Step Procedure Points
(R2687)
130 Removal Procedure
Si06-313 Outdoor Unit
2.2 Removal of the Fan Motor / Propeller Fan
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
Remove the top panel and the front panel.
1. Remove the electrical box cover.
This procedure is not necessary to remove the propeller fan only.1 Loosen the screw on
the back of the shelter.
2 Undo the two claws and remove it.
The claws have been released since the front panel was removed.
3 Release the four claws of the electrical box cover and remove it.
(R2688)
Shelter
Claws
Removal Procedure 131
Outdoor Unit Si06-313
2. Remove the fan motor.1 Disconnect the
connector for fan motor (S70).
2 The illustration shows arrangement of the fan motor lead wire.
Step Procedure Points
132 Removal Procedure
Si06-313 Outdoor Unit
3 Unscrew the washer-fitted nut (M10) of the propeller fan with a spanner.
Align mark of the propeller fan with D-cut section of the motor shaft when reassembling.
4 Remove the four screws from the fan motor.
Step Procedure Points
Removal Procedure 133
Outdoor Unit Si06-313
5 Pull the fan motor out. Put the lead wire through the back of the motor when reassembling. (so as not to be entangled with the propeller fan)
Step Procedure Points
(R2697)
134 Removal Procedure
Si06-313 Outdoor Unit
2.3 Removal of the PCB / Electrical Box
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
Remove the top panel and the front panel.
1. Remove the right side panel.
Terminal strip numberblack (1) ----- power supplywhite (2) ----- power supplyred (3) ----- transmissionyellow / green ( ) ----- earth
1 Disconnect the three connection wirings and the two earth wires.
2 Loosen the three screws of the right side panel.
3 Loosen the fixing screw of the electrical box.
Removal Procedure 135
Outdoor Unit Si06-313
Insert the two claws of the lower part and the one claw of the upper back when reassembling.
2. Disconnect harnesses.1 Loosen the fixing screw
of the cable way board.Service monitor PCB
Step Procedure Points
(R2701)
Claw
(R2702)Claws
S52 SW1
A B C
LEDA(Green)
SW4(Initial setting: OFF)
LED A (Green)
ONSW4
S10
2
S2
(R2704)
136 Removal Procedure
Si06-313 Outdoor Unit
2 Push the claw up to release the cable way board. Open the cable way board.
3 Disconnect the harnesses from the power supply PCB.HL (black) ···· to the terminal stripHE2 (yellow / green) ···· to the terminal strip (earth)HAC1 (black) ···· from the control PCB (AC1)HE1 (yellow / green) ···· from the control PCB (E)
Power supply PCB (outdoor unit)
4 Disconnect the connectors of the front side.S20: electronic expansion valveS40: overload protectorS80: four way valveS90: thermistors (discharge pipe, outdoor air, heat exchanger)
Step Procedure Points
HE1 V3(varistor)
(soldered)HE2 HL FU1 250V 30A
HAC1
(R2707)
Removal Procedure 137
Outdoor Unit Si06-313
5 Loosen the screw of the control PCB.
6 Undo the two claws and release the control PCB from the ditch of the front side.
7 Disconnect the harnesses while opening the control PCB.S10: to the terminal stripAC2: to the terminal strip
8 Disconnect the connectors.S51: to the service monitor PCBS101: to the service monitor PCB
Step Procedure Points
138 Removal Procedure
Si06-313 Outdoor Unit
9 Disconnect the connectors.S31: to the SPMS32: to the SPMS33: to the MIDS71: to the MIDS91: fin thermistor
10 Control PCB (outdoor unit)S10: to the terminal stripS20: electronic expansion valveS31: to CN14 of the SPMS32: to CN11 of the SPMS33: to S34 of the MIDS40: overload protectorS51: to S52 of the service monitor PCBS71: to S72 of the MIDS80: four way valveS90: thermistors (discharge pipe, outdoor air, heat exchanger)S91: fin thermistorS101: to S102 of the service monitor PCB
Step Procedure Points
Removal Procedure 139
Outdoor Unit Si06-313
11 Disconnect the relaying wire connector for the compressor.
12 Release the clamp by pliers.
13 Disconnect the reactor harness.
Step Procedure Points
(R2715)
140 Removal Procedure
Si06-313 Outdoor Unit
14 Pull the clamp and draw the thermistor harness out from the back of the electrical box.
15 Loosen the screw of the electrical box.
Step Procedure Points
Removal Procedure 141
Outdoor Unit Si06-313
16 Release the clamp of the four way valve harness.
17 Lift the electrical box and remove it.
Step Procedure Points
(R2720)
142 Removal Procedure
Si06-313 Outdoor Unit
2.4 Removal of the Reactor
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
Remove the electrical box.1. Remove the partition plate.
1 Release the clamp by pliers.
2 Loosen the two screws of the partition plate.
The partition plate is fixed to the bottom frame with a claw.
(R2724)
Claw
Removal Procedure 143
Outdoor Unit Si06-313
3 Lift the partition plate and remove it.
4 Loosen the screw.Slide the reactor and remove it from the partition plate.
Step Procedure Points
144 Removal Procedure
Si06-313 Outdoor Unit
2.5 Removal of the Sound Blanket
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 Disconnect the harness of each thermistor.
2 Release the discharge pipe thermistor.
Pay attention to the direction of the clip so as not to touch the lead wire of the thermistor when reassembling.
3 Cut the clamp by nippers.Disconnect the outdoor heat exchanger thermistor.
Clamps should be always available. Fix it as it was before.
Removal Procedure 145
Outdoor Unit Si06-313
4 Remove the sound blanket (side-outer).
Since the piping ports on the sound blanket (side-outer) are torn easily, remove the blanket carefully.
5 Remove the sound blanket (top-upper).
6 Remove the sound blanket (top-lower).
7 Remove the sound blanket (side-inner).
Since the piping ports on the sound blanket (side-inner) are torn easily, remove the blanket carefully.
Step Procedure Points
146 Removal Procedure
Si06-313 Outdoor Unit
2.6 Removal of the Four Way Valve
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 Loosen the screw of the four way valve coil.
Provide a protective sheet or a steel plate so that the brazing flame cannot influence peripheries.Be careful so as not to break the pipes by pressing it excessively by pliers when withdrawing it.
CautionBe careful about the four way valve, pipes and so on, which were heated up by a gas brazing machine, so as not to get burnt your hands.
Cautions for restoration1. Restore the piping by non-
oxidation brazing. Braze it quickly when no nitrogen gas can be used.
2. It is required to prevent the carbonization of the oil inside the four way valve and the deterioration of the gaskets affected by heat. For the sake of this, wrap the four way valve with wet cloth and provide water so that the cloth will not be dried and avoid excessive heating. (Keep below 120°C)
In case of the difficulty with gas brazing machine 1. Disconnect the brazed part
where is easy to disconnect and restore.
2. Cut pipes on the main unit by a miniature copper tube cutter in order to make it easy to disconnect.
Note: Do not use a metal saw for cutting pipes by all means because the sawdust come into the circuit.
2 Heat up the brazed part of the four way valve and disconnect.
Be sure to apply nitrogen replacement when heating up the brazed part.
3 Heat up every brazed part in turn and disconnect.
Removal Procedure 147
Outdoor Unit Si06-313
2.7 Removal of the Electronic Expansion Valve
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 Remove the electronic expansion valve coil.
2 Remove the sheets of putty.
Before working, make sure that the refrigerant is empty in the circuit.
3 Heat up the two brazed parts of the electronic expansion valve and disconnect.
Be sure to apply nitrogen replacement when heating up the brazed part.
CautionBe careful about the electronic expansion valve, pipes and so on, which were heated up by a gas brazing machine, so as not to get burnt your hands.
WarningVentilate when refrigerant leaks during the work.(If refrigerant contacts fire, it will cause to arise toxic gas.)
148 Removal Procedure
Si06-313 Outdoor Unit
2.8 Removal of the Compressor
Procedure Warning Be sure to wait 10 minutes or more after turning off all power supplies before disassembling work.
Step Procedure Points
1 Remove the terminal cover.
2 Disconnect the lead wires of the compressor.
Be careful so as not to burn the compressor terminals or the name plate.
Make a note.
U : redV : yellowW: blueN : brown
N
W
U
V
Removal Procedure 149
Outdoor Unit Si06-313
3 Unscrew the nut of the compressor.
4 Remove the putty of the accumulator.
Before working, make sure that the refrigerant is empty in the circuit.Be sure to apply nitrogen replacement when heating up the brazed part.
WarningVentilate when refrigerant leaks during the work.(If refrigerant contacts fire, it will cause to arise toxic gas.)
Provide a protective sheet or a steel plate so that the brazing flame cannot influence peripheries.Be careful so as not to burn the compressor terminals or the name plate.
5 Heat up the brazed part of the discharge side and disconnect.
6 Heat up the brazed part of the suction side and disconnect.
Be careful so as not to burn the heat exchanger fin.
WarningSince it may happen that refrigeration oil in the compressor will catch fire, prepare wet cloth so as to extinguish fire immediately.
7 Lift the compressor up and remove it.
Step Procedure Points
150 Removal Procedure
Si06-313
Others 151
Part 8Part 8Part 8Part 8OthersOthersOthersOthers
1. Others .................................................................................................1521.1 Test Run from the Remote Controller ..................................................1521.2 Jumper Settings ...................................................................................153
Others Si06-313
1. Others1.1 Test Run from the Remote Controller
For Heat pump In cooling mode, select the lowest programmable temperature; in heating mode, select the highest programmable temperature.
Trial operation may be disabled in either mode depending on the room temperature.After trial operation is complete, set the temperature to a normal level.(26°C to 28°C in cooling mode, 20°C to 24°C in heating mode)For protection, the system disables restart operation for 3 minutes after it is turned off.
For Cooling Only Select the lowest programmable temperature.Trial operation in cooling mode may be disabled depending on the room temperature. Use the remote control for trial operation as described below.After trial operation is complete, set the temperature to a normal level (26°C to 28°C).For protection, the machine disables restart operation for 3 minutes after it is turned off.
Trial Operation and Testing1. Measure the supply voltage and make sure that it falls in the specified range.2. Trial operation should be carried out in either cooling or heating mode.3. Carry out the test operation in accordance with the Operation Manual to ensure that all
functions and parts, such as louver movement, are working properly.The air conditioner requires a small amount of power in its standby mode. If the system is not to be used for some time after installation, shut off the circuit breaker to eliminate unnecessary power consumption.If the circuit breaker trips to shut off the power to the air conditioner, the system will restore the original operation mode when the circuit breaker is opened again.
Trial operation from Remote Controller(1) Press ON/OFF button to turn on the system.(2) Simultaneously press center of TEMP button and MODE buttons.(3) Press MODE button twice.
(“T” will appear on the display to indicate that Trial Operation mode is selected.)(4) Trial run mode terminates in approx. 15 minutes and switches into normal mode. To quit a
trial operation, press ON/OFF button.
TEMPON/OFF
POWERFUL
HOME LEAVE
MODE FAN
(2)
(1) (4)
(3)
(3) (R2870)
152 Others
Si06-313 Others
1.2 Jumper Settings1.2.1 When Two Units are Installed in One Room
When two indoor units are installed in one room, the two wireless remote controllers can be set for different addresses.
How to set the different addressesControl PCB of the indoor unit
(1) Remove the front grille. (3 screws)(2) Remove the electrical box (1-screw).(3) Remove the drip proof plate. (4 tabs)(4) Cut the address jumper JA on control PCB.
Wireless remote controller(1) Slide the front cover and take it off.(2) Cut the address jumper J4.
1.2.2 Jumper Setting
(R2871) (R2872)
Jumper (On indoor control PCB)
Function When connected (factory set)
When cut
JC Power failure recovery function
Auto start Unit does not resume operation after recovering from a power failure. Timer ON-OFF settings are cleared.
JB Fan speed setting when compressor is OFF on thermostat.
Fan speed setting ; Remote controller setting
Fan rpm is set to “0” <Fan stop>
Others 153
Si06-313
Appendix 155
Part 9Part 9Part 9Part 9AppendixAppendixAppendixAppendix
1. Piping Diagrams..................................................................................1561.1 Indoor Units ..........................................................................................1561.2 Outdoor Units .......................................................................................157
2. Wiring Diagrams..................................................................................1582.1 Indoor Units ..........................................................................................1582.2 Outdoor Units .......................................................................................159
Piping Diagrams Si06-313
1. Piping Diagrams1.1 Indoor Units
FVKS50BVMB, FVXS50BVMB
FIELD PIPING
FIELD PIPING
(12.7CuT)
(6.4CuT)
REFRIGERANT FLOW
INDOOR UNIT
9.5C
uTMUFFLER
MUFFLER
CROSS FLOW FAN
CROSS FLOW FAN
HEATING
COOLING
FAN MOTOR
FAN MOTOR
9.5CuT
M
M
4.8CuT
4.8CuT7.0CuT
HEAT EXCHANGER
7.0CuT
7.0CuT
7.0CuT
ON HEAT EXCH.THERMISTOR
4D020911B
156 Appendix
Si06-313 Piping Diagrams
1.2 Outdoor Units
RKS50BVMB, RS50BVMB
RXS50BVMB, RXS50BVMA
OUTDOOR UNIT
9.5C
uT
12.7CuT
HEAT EXCHANGERTHERMISTOR
7.9CuT
DISCHARGE PIPE
7.9CuT
7.9CuT
7.9CuT
THERMISTOR
PROPELLER FAN
M
HEAT EXCHANGER
COMPRESSOR
12.7CuT
OUTDOOR AIR TEMPERATURE
7.9CuT
7.9CuT
7.9CuT
THERMISTOR
ACCUMLATOR
CAPILLARY TUBE 2
CAPILLARY TUBE 1
CAPILLARY TUBE 3
12.7CuT
6.4CuT
MUFFLER
FILTER
MU
FF
LER
WITH
12.7CuTW
ITH
FIL
TE
R
WITH SERVICE PORT
6.4CuT
FIL
TE
R6.
4CuT
6.4C
uTGAS STOP VALVE
VALVEMOTOR OPERATED
STOP VALVELIQUID
FIELD PIPING
FIELD PIPING
REFRIGERANT FLOW
(12.7CuT)
(6.4CuT)
COOLING
3D037835A
OUTDOOR UNIT
12.7CuT
HEAT EXCHANGERTHERMISTOR
12.7CuT
DISCHARGE PIPE
7.9CuT
7.9CuT
7.9CuT
THERMISTOR
PROPELLER FAN
M
MUFFLER
HEAT EXCHANGER
7.9C
uT
VALVE
7.9C
uT
FOUR WAY
ON:HEATING
COMPRESSOR
12.7CuT
12.7CuT
12.7CuT
OUTDOOR AIR TEMPERATURE
7.9CuT
7.9CuT
7.9CuT
THERMISTOR
ACCUMLATOR
CAPILLARY TUBE 2
CAPILLARY TUBE 1
CAPILLARY TUBE 3
6.4CuT
MUFFLER
FILTER
MU
FF
LER
WITH
12.7CuT
WIT
HF
ILT
ER
WITH SERVICE PORT
6.4CuT
FIL
TE
R6.
4CuT
6.4C
uT
GAS STOP VALVE
VALVEMOTOR OPERATED
STOP VALVELIQUID
FIELD PIPING
FIELD PIPING
REFRIGERANT FLOW
(12.7 CuT)
(6.4 CuT)
HEATING
COOLING
3D034262C
Appendix 157
Wiring Diagrams Si06-313
2. Wiring Diagrams2.1 Indoor Units
FVKS50BVMB, FVXS50BVMB
CONTROLLER
WIRELESSREMOTE
indoor
H1P
S1W
S2W(4)
S4W
M2S
H2P
M1S
PCB4
PCB3
H3P
RECEIVERSIGNAL
M
M
L1S
S24
S42
S26
S41
S23
S25
S6
PCB2
S31
R1T
S21
TRANSMISSION
S32
R2T
CIRCUIT
HA
3.15A
FU
S7
S302
S203
S201
S301
H3
H2
H1
S44
S43
S8
S204
S202
PCB1
M
M(LOWER FAN MOTOR)
(UPPER FAN MOTOR)
M2F
M1F
FG
GRN
WHTBLK
RED/
S4W : AIR OUTLET SELECTION SWITCH
S6~S302 : CONNECTOR
FU : FUSE
M2S : LOWER AIR OUTLET MOTOR
S1W : OPERATION SWITCH
PCB1~PCB4 : PRINTED CIRCUIT BOARD
S2W(4) : UPWARD AIR FLOW LIMIT SWITCH
M1S : SWING MOTOR
L1S : LIMIT SWITCH
X1M : TERMINAL STRIP
R1T, R2T : THERMISTOR
M1F, M2F : FAN MOTOR
H1P, H2P, H3P : PILOT LAMP
YLW
: PROTECTIVE EARTH
X1M
23
1
FIELD WIRING.
321
outdoor
3D034713A
→
158 Appendix
Si06-313 Wiring Diagrams
2.2 Outdoor Units
RKS50BVMB, RS50BVMB
RXS50BVMB, RXS50BVMA
~60Hz 220-230V~50Hz 220-240V
FIELD WIRING
TO INDOOR UNIT
POWER SUPPLY
N
L
23
1
V2~V5 : VARISTOR
MRC/W : MAGNETIC RELAY
Y2E : ELECTRONIC EXPANSION VALVE
E,AC1,AC2
Z1C,Z2C : FERRITE CORE
MRM10,MRM20
R1T~R3T : THERMISTOR
X1M : TERMINAL STRIP
H1, H2, HLL1,L2,X11A : CONNECTOR
HE1,HE2,HAC1
GRN
FU1, FU2, FU201 : FUSE
YLW
HL
indoor
HE2
GRN
30A
FU1
BLK
PCB2
YLW
SA1V3
X1M
23
1
HAC1
HE1GRN
WHT
BLK
RED
YLW
AC2
AC1E
S10
V2
1
1
3
LEDAS1W
1
BLU
S52
S51
BLU
S4W : LOCAL SETTING SW (SW4)
S2~S102 : CONNECTORLEDA : PILOT LAMP
L : LIVEN : NEUTRALS1W : FORCED OPERATION ON/OFF SW (SW1)
PCB1,PCB2 : PRINTED CIRCUIT BOARD
SA1 : SURGE ARRESTERDB1 : DIODE BRIDGEM1C : COMPRESSOR MOTORM1F : FAN MOTOR
BLU
BLU
5
5
BLU
S2
1
1
RED
S102
S4W
S101
BLK
WHT
5
5
V5
GRN
MRM20
MRM10
FU23.15A
1MRC
W
3S80
CT1 H2
H1
SPM : SYSTEM POWER MODULE
CT1 : CURRENT TRANSFORMERQ1L : OVERLOAD PROTECTOR
L1R : REACTOR
MID : MOLDED INTER CONNECT DEVICE
t˚
YLW
BLU
R12T
1
BLK
S91
Z2C
BLK
3
1
WHT
YLW
Y2E
S20
~
DB1
M
~
1
ORG
BLK
+
-
BLU
S32
BLK
BR
N
PCB1
6
BLK
RE
DB
LK
RED
BLK
5
BLK
CN11
outdoor
5
1
+
-
ORGL1
1
1
BLK
BLK
SPM
BLK
S31
BLK
CN14
BLK
ORGL2
VB
LK
L1R
Z1C
BLK
W
U
BLK
(OUTDOOR)
P2
9
N1P1
WVU
BLK
10
ASSIGNMENTS OFTERMINALS OF THE COMP.
R3T
N
1
(CONDENSER)
BLU
t˚
BLU
R2T
S90
GRY
1
1
(DISCHARGE)
TB6
TB4TB5
P2N1
P1
WHT
t˚
GRY
MID
R1T
S6
ORG
BLK
6
+ + +
BRN
t˚
BLK
S72
S711
BLU
8
8
FU201
3.15A
RED
1
1
S70
BRN
WVUN
7
1
8
RED
S33
S34
YLW
WHT
BLU
RED
BRNORG
REDBRN
BLU
YLW
X11A
10
10
BLU
YLW
BRNBLU
RED
1
3D037866D
GRY
V
S40
1 ~
3~
M1F
M1C
M
M
BLK
4
W
U
Q1L
BLK
N
~60Hz 220-230V~50Hz 220-240V
FIELD WIRING
TO INDOOR UNIT
POWER SUPPLY
N
L
23
1
V2~V5 : VARISTOR
MRC/W : MAGNETIC RELAY
Y2E : ELECTRONIC EXPANSION VALVE
E,AC1,AC2
Z1C,Z2C : FERRITE CORE
MRM10,MRM20
R1T~R3T : THERMISTOR
X1M : TERMINAL STRIP
H1, H2, HLL1,L2,X11A : CONNECTOR
HE1,HE2,HAC1
GRN
FU1, FU2, FU201 : FUSE
YLW
HL
indoor
HE2
GRN
30A
FU1
BLK
PCB2
YLW
SA1V3
X1M
23
1
HAC1
HE1GRN
WHT
BLK
RED
YLW
AC2
AC1E
S10
V2
1
1
3
LEDAS1W
1
BLU
S52
S51
BLU
S4W : LOCAL SETTING SW (SW4)
S2~S102 : CONNECTORLEDA : PILOT LAMP
L : LIVEN : NEUTRALS1W : FORCED OPERATION ON/OFF SW (SW1)
PCB1,PCB2 : PRINTED CIRCUIT BOARD
SA1 : SURGE ARRESTERY1R : REVERSING SOLENOID VALVE COILDB1 : DIODE BRIDGEM1C : COMPRESSOR MOTORM1F : FAN MOTOR
BLU
BLU
5
5
BLU
S2
1
1
RED
S102
S4W
S101
BLK
WHT
5
5
V5
GRN
MRM20
MRM10
FU23.15A
1MRC
W
Y1R
BLK
3
BLK
S80
CT1 H2
H1
SPM : SYSTEM POWER MODULE
CT1 : CURRENT TRANSFORMERQ1L : OVERLOAD PROTECTORL1R : REACTOR
MID : MOLDED INTER CONNECT DEVICE
t˚
YLW
BLU
R12T
1
BLK
S91
Z2C
BLK
3
1
WHT
YLW
Y2E
S20
~
DB1
M
~
1
ORG
BLK
+
-
BLU
S32
BLK
BR
N
PCB1
6
BLK
RE
DB
LK
RED
BLK
5
BLK
CN11
outdoor
5
1
+
-
ORGL1
1
1
BLK
BLK
SPM
BLK
S31
BLK
CN14
BLK
ORGL2
V
BLK
L1R
Z1C
BLK
W
U
BLK
(OUTDOOR)
P2
9
N1P1
WVU
BLK
10
ASSIGNMENTS OFTERMINALS OF THE COMP.
R3T
N
1
(CONDENSER)
BLU
t˚
BLU
R2T
S90
GRY
1
1
(DISCHARGE)
TB6
TB4TB5
P2N1
P1
WHT
t˚
GRY
MID
R1T
S6
ORG
BLK
6
+ + +
BRN
t˚
BLK
S72
S711
BLU
8
8
FU201
3.15A
RED
1
1
S70
BRN
WVUN
7
1
8
RED
S33
S34
YLW
WHT
BLU
RED
BRNORG
REDBRN
BLU
YLW
X11A
10
10
BLU
YLW
BRNBLU
RED
1
3D037854D
GRY
V
S40
1 ~
3~
M1F
M1C
M
M
BLK
4
W
U
Q1L
BLK
N
Appendix 159
Si06-313
IndexIndexIndexIndexNumerics00 ............................................................................713 minutes stand-by............................................25, 31
AA1............................................................................72A5............................................................................73A6............................................................................75AC1 .................................................................12, 137AC2 .................................................................12, 138accumulator...........................................................150address setting jumper............................................10air filter ............................................................25, 115air flow direction ......................................................53air purifying filter......................................................25ARC433A series......................................................70Auto·Dry·Cool·Heat·Fan operation ..........................51automatic air flow control ........................................19automatic operation.................................................21auto-restart function ................................................25auto-swing...............................................................18
CC4............................................................................77C7............................................................................78C9............................................................................77cable way board ....................................................136capacitor voltage check.........................................111care and cleaning....................................................61casing....................................................................126centralized control ...................................................10check
capacitor voltage check ..................................111discharge pressure check...............................109electronic expansion valve check ...................105four way valve performance check .................106installation condition check.............................108inverter units refrigerant system check...........110main circuit electrolytic capacitor check..........112outdoor unit fan system check........................109power supply waveforms check......................110power transistor check....................................111thermistor resistance check............................107turning speed pulse input on the outdoor unit
PCB check.........................................112check No.01 ..........................................................104check No.02 ..........................................................104check No.03 ..........................................................104check No.04 ..........................................................105check No.05 ..........................................................106check No.06 ..........................................................107check No.07 ..........................................................108check No.08 ..........................................................109check No.09 ..........................................................109check No.10 ..........................................................110check No.11 ..........................................................110
check No.12 ......................................................... 111check No.13 ......................................................... 111check No.14 ......................................................... 112check No.15 ......................................................... 112clamp plate........................................................... 128CN11 .............................................................. 12, 139CN14 .............................................................. 12, 139compressor .......................................................... 150compressor lock ..................................................... 81compressor overload.............................................. 80compressor protection function .............................. 31connectors........................................................ 10, 12control PCB (indoor unit) .......................... 11, 72, 121control PCB (outdoor unit).............................. 13, 139cross flow fans ..................................................... 126CT or related abnormality....................................... 89
DDC fan lock............................................................. 82defrost control ........................................................ 35diode bridge ........................................................... 12discharge grille ............................................. 123, 127discharge pipe........................................................ 37discharge pipe temperature control............ 32, 38, 87discharge pipe thermistor............. 26, 27, 37, 92, 145discharge pressure check .................................... 109display PCB.................................................... 11, 121drain pan .............................................................. 125drip proof plate ..................................................... 119
EE..................................................................... 12, 137E5........................................................................... 80E6........................................................................... 81E7........................................................................... 82E8........................................................................... 83EA .......................................................................... 85earth ..................................................................... 135electrical box ................................................ 120, 142electrical box cover .............................................. 131electrical box temperature rise ............................... 93electronic expansion valve ................................... 148electronic expansion valve check......................... 105electronic expansion valve coil............................. 148electronic expansion valve control ......................... 36error codes
00..................................................................... 71A1 .................................................................... 72A5 .................................................................... 73A6 .................................................................... 75C4 .................................................................... 77C7 .................................................................... 78C9 .................................................................... 77E5 .................................................................... 80E6 .................................................................... 81E7 .................................................................... 82
Index i
Si06-313
E8 .....................................................................83EA.....................................................................85F3 .....................................................................87F6 ...................................................................102H6 .....................................................................88H8 .....................................................................89H9 .....................................................................91J3......................................................................91J6......................................................................91L3......................................................................93L4......................................................................95L5......................................................................97P4 .....................................................................91U0 .....................................................................99U2 ...................................................................101U4 .....................................................................79
error codes and description.....................................71
FF3 ............................................................................87F6 ..........................................................................102fan control ...............................................................34fan motor ...............................................................133fan motor (DC motor) or related abnormality ..........75fan motor connector output check.........................104fan motors .............................................................126fan speed control.....................................................19fan speed setting.............................................10, 153field setting switch ...................................................12forced cooling operation..........................................17forced operation mode ............................................40forced operation ON/OFF switch.............................12four way valve .......................................................147four way valve abnormality......................................85four way valve coil.................................................147four way valve operation compensation..................31four way valve performance check........................106four way valve switching .........................................31freeze-up protection control ..............................33, 73frequency control...............................................16, 29frequency principle ..................................................16front grille ..............................................................116front panel .....................................................114, 128FU ...........................................................................10FU1 .........................................................................12FU2 .........................................................................12FU201 .....................................................................12functions, list of .........................................................2fuse ...................................................................10, 12
Ggas pipe.................................................................123
HH1............................................................................12H2............................................................................12H6............................................................................88H8............................................................................89H9............................................................................91HA ...........................................................................10HAC1...............................................................12, 137
hall IC ............................................................... 19, 75HE1 ................................................................ 12, 137HE2 ................................................................ 12, 137heat exchanger ............................................ 124, 127heat exchanger thermistor ... 26, 27, 77, 92, 119, 145heating peak-cut control ......................................... 33high pressure control.............................................. 73high pressure control in cooling ........................... 102HL................................................................... 12, 137Home Leave operation..................................... 23, 57horizontal blade.................................................... 117hot start function..................................................... 25
Iindoor unit PCB abnormality .................................. 72input current control ............................................... 32input over current detection.................................... 83installation condition check .................................. 108insufficient gas ....................................................... 99insufficient gas control............................................ 39inverter powerful operation..................................... 24inverter principle..................................................... 16inverter units refrigerant system check................. 110
JJ3 ........................................................................... 91J4 ......................................................................... 153J6 ........................................................................... 91JA ................................................................... 10, 153JB ................................................................... 10, 153JC................................................................... 10, 153jumper settings..................................................... 153
LL1 ........................................................................... 12L2 ........................................................................... 12L3 ........................................................................... 93L4 ........................................................................... 95L5 ........................................................................... 97LED A..................................................................... 12LED11 .................................................................... 10LED12 .................................................................... 10LED14 .................................................................... 10limit switch continuity check ................................. 104liquid pipe ............................................................. 123list of functions ......................................................... 2low Hz high pressure limit ...................................... 35low-voltage detection ........................................... 101
Mmain circuit electrolytic capacitor check ............... 112MID......................................................................... 14mode hierarchy ...................................................... 28moisture protection function ................................... 34mold proof air filter ................................................. 25
Nnames of parts ....................................................... 45night set mode........................................................ 22
ii Index
Si06-313
OOL activation ...........................................................80ON/OFF button on indoor unit.................................25operation lamp ........................................................68outdoor air thermistor ..............................................92outdoor unit fan system check ..............................109Outdoor Unit Silent operation..................................56output over current detection ..................................97over current .................................................39, 83, 97overload ............................................................39, 80
PP4............................................................................91partition plate.........................................................143photocatalytic deodorizing filter...............................25PI control .................................................................30piping diagrams.....................................................156position sensor abnormality ....................................88power failure recovery function ...............................10power supply PCB (indoor unit) ................10, 72, 122power supply PCB (outdoor unit) ....................13, 137power supply waveforms check ............................110power transistor check ..........................................111Powerful operation ......................................24, 40, 55preheating operation ...............................................31preparation before operation...................................48printed circuit board (PCB)
control PCB (indoor unit) ....................11, 72, 121control PCB (outdoor unit) ........................13, 139display PCB ..............................................11, 121MID ...................................................................14power supply PCB (indoor unit) ................72, 122power supply PCB (outdoor unit)..............13, 137service monitor PCB.................................13, 136service PCB..............................................11, 122SPM..................................................................14
problem symptoms and measures ..........................69program dry function ...............................................20propeller fan ..........................................................133
Rradiation fin temperature rise ..................................95radiation fin thermistor.............................................92reactor ...................................................................144remote controller .....................................................70removal procedure ................................................113right side panel......................................................135room temperature thermistor...........................77, 119
SS10..........................................................12, 138, 139S101........................................................12, 138, 139S102................................................................12, 139S20..........................................................12, 137, 139S201..................................................................10, 72S202..................................................................10, 72S203..................................................................10, 72S204..................................................................10, 72S21..........................................................................10S23..........................................................................10S24..........................................................................10
S25......................................................................... 10S26......................................................................... 10S301....................................................................... 10S302....................................................................... 10S31........................................................... 10, 12, 139S32........................................................... 10, 12, 139S33................................................................. 12, 139S34................................................................. 12, 139S40......................................................... 12, 137, 139S51......................................................... 12, 138, 139S52................................................................. 12, 139S6........................................................................... 10S7..................................................................... 10, 72S70................................................................. 12, 132S71................................................................. 12, 139S72................................................................. 12, 139S8..................................................................... 10, 72S80......................................................... 12, 137, 139S90......................................................... 12, 137, 139S91................................................................. 12, 139self-diagnosis digital display................................... 25sensor malfunction detection ................................. 39service check function ............................................ 70service monitor PCB ...................................... 13, 136service PCB ................................................... 11, 122shelter .................................................................. 131shutter drive motor abnormality.............................. 78shutter limit switch abnormality .............................. 78signal receiving sign............................................... 25signal transmission error ........................................ 79sound blanket....................................................... 146specifications............................................................ 6SPM ....................................................................... 14stop valve cover ................................................... 130SW1 ................................................................. 10, 12SW2 ....................................................................... 10SW4 ................................................................. 10, 12swing motor .......................................................... 125
Tterminal cover....................................................... 149terminal strip......................................................... 135test run ................................................................. 152thermistor
discharge pipe thermistor ...... 26, 27, 37, 92, 145indoor heat exchanger thermistor ........ 26, 27, 77outdoor air thermistor....................................... 92outdoor heat exchanger
thermistor........................ 26, 27, 92, 145radiation fin thermistor ..................................... 92room temperature thermistor ................... 77, 119
thermistor or related abnormality (indoor unit) ....... 77thermistor or related abnormality (outdoor unit) ..... 91thermistor resistance check ................................. 107Timer operation ...................................................... 59top panel .............................................................. 127troubleshooting................................................. 64, 71troubleshooting with the LED indication ................. 68turning speed pulse input on the outdoor unit
PCB check .................................................... 112
Index iii
Si06-313
UU0............................................................................99U2..........................................................................101U4............................................................................79
VV1............................................................................10V3............................................................................12varistor ..............................................................10, 12voltage detection function .......................................40
Wwide-angle louvres ..................................................18wiring diagrams.....................................................158
iv Index
Si06-313
Drawings & Flow ChartsDrawings & Flow ChartsDrawings & Flow ChartsDrawings & Flow Charts
AARC433A series......................................................70automatic air flow control ........................................19automatic operation.................................................21auto-swing...............................................................18
Ccapacitor voltage check.........................................111check No.01 ..........................................................104check No.02 ..........................................................104check No.03 ..........................................................104check No.04 ..........................................................105check No.05 ..........................................................106check No.06 ..........................................................107check No.07 ..........................................................108check No.08 ..........................................................109check No.09 ..........................................................109check No.10 ..........................................................110check No.11 ..........................................................110check No.12 ..........................................................111check No.13 ..........................................................111check No.14 ..........................................................112check No.15 ..........................................................112compressor lock ......................................................81compressor protection function ...............................31control PCB (indoor unit).........................................11control PCB (outdoor unit).......................................13CT or related abnormality........................................89
DDC fan lock..............................................................82defrost control .........................................................35discharge pipe temperature control.................. 32, 87discharge pressure check .....................................109display PCB.............................................................11
Eelectrical box temperature rise ................................93electronic expansion valve check..........................105electronic expansion valve control ..........................36
Ffan motor (DC motor) or related abnormality ..........75fan motor connector output check.........................104four way valve abnormality......................................85four way valve performance check........................106freeze-up protection control ....................................33freeze-up protection control or high pressure
control ..............................................................73frequency control.....................................................29frequency principle ..................................................16
Hheating peak-cut control ......................................... 33high pressure control in cooling ........................... 102Home Leave operation........................................... 23
Iindoor unit PCB abnormality .................................. 72input current control ............................................... 32input over current detection.................................... 83installation condition check .................................. 108insufficient gas ....................................................... 99insufficient gas control............................................ 39inverter features ..................................................... 17inverter powerful operation..................................... 24inverter units refrigerant system check................. 110
Jjumper settings..................................................... 153
Llimit switch continuity check ................................. 104low Hz high pressure limit ...................................... 35low-voltage detection ........................................... 101
Mmain circuit electrolytic capacitor check ............... 112MID......................................................................... 14mode hierarchy ...................................................... 28
Nnight set mode........................................................ 22
OOL activation (compressor overload) ..................... 80ON/OFF button on indoor unit ................................ 25operation lamp, location ......................................... 68outdoor unit fan system check (with DC motor) ... 109output over current detection ................................. 97
Ppiping diagrams
FVKS50BVMB ............................................... 156FVXS50BVMB ............................................... 156RKS50BVMB ................................................. 157RS50BVMB.................................................... 157RXS50BVMA ................................................. 157RXS50BVMB ................................................. 157
position sensor abnormality ................................... 88power supply PCB (indoor unit) ............................. 10power supply PCB (outdoor unit) ........................... 13power supply waveforms check ........................... 110power transistor check ......................................... 111programme dry function ......................................... 20
Drawings & Flow Charts v
Si06-313
Rradiation fin temperature rise ..................................95remote controller .....................................................70
Sservice monitor PCB ...............................................13service PCB ............................................................11shutter drive motor /
shutter limit switch abnormality ........................78signal transmission error
(between indoor and outdoor units) .................79SPM ........................................................................14
Ttarget discharge pipe temperature control ..............38thermistor
cooling only model ............................................27heat pump model ..............................................26
thermistor or related abnormality (indoor unit) ........77thermistor or related abnormality (outdoor unit) ......91thermistor resistance check ..................................107trial operation from the remote controller ..............152troubleshooting with the LED indication ..................68turning speed pulse input on the outdoor unit
PCB check .....................................................112
Wwide-angle louvres ..................................................18wiring diagrams
FVKS50BVMB ................................................158FVXS50BVMB ................................................158RKS50BVMB ..................................................159RS50BVMB ....................................................159RXS50BVMA ..................................................159RXS50BVMB ..................................................159
vi Drawings & Flow Charts
Head office:Umeda Center Bldg., 4-12, Nakazaki-Nishi 2-chome,Kita-ku, Osaka, 530-8323 Japan
Tokyo office:Shinjuku Sumitomo Bldg., 6-1 Nishi-Shinjuku2-chome, Shinjuku-ku, Tokyo, 163-0235 Japan
Zandvoordestraat 300, B-8400 Oostende, Belgium
For further improvement, specifications or designs are subject to change without prior notice.
Printed in Singapore 06/2003 AK COS